/****************************************************************************

NAME
   gpsd_json.c - move data between in-core and JSON structures

DESCRIPTION
   These are functions (used only by the daemon) to dump the contents
of various core data structures in JSON.

PERMISSIONS
  Written by Eric S. Raymond, 2009
  This file is Copyright 2010 by the GPSD project
  SPDX-License-Identifier: BSD-2-clause

***************************************************************************/

#include "../include/gpsd_config.h"  /* must be before all includes */

#include <assert.h>
#include <ctype.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>       // for qsort()
#include <string.h>       /* for strcat(), strlcpy() */

#include "../include/gpsd.h"
#include "../include/bits.h"
#include "../include/strfuncs.h"

#ifdef SOCKET_EXPORT_ENABLE
#include "../include/gps_json.h"
#include "../include/timespec.h"

/* *INDENT-OFF* */
#define JSON_BOOL(x)    ((x)?"true":"false")

/*
 * Manifest names for the gnss_type enum - must be kept synced with it.
 * Also, masks so we can tell what packet types correspond to each class.
 */
/* the map of device class names */
struct classmap_t {
    char        *name;
    int         typemask;
    int         packetmask;
};
#define CLASSMAP_NITEMS 5

struct classmap_t classmap[CLASSMAP_NITEMS] = {
    /* name     typemask        packetmask */
    {"ANY",     0,              0},
    {"GPS",     SEEN_GPS,       GPS_TYPEMASK},
    {"RTCM2",   SEEN_RTCM2,     PACKET_TYPEMASK(RTCM2_PACKET)},
    {"RTCM3",   SEEN_RTCM3,     PACKET_TYPEMASK(RTCM3_PACKET)},
    {"AIS",     SEEN_AIS,       PACKET_TYPEMASK(AIVDM_PACKET)},
};
/* *INDENT-ON* */

char *json_stringify(char *to,
                     size_t len,
                     const char *from)
/* escape double quotes and control characters inside a JSON string */
{
    const char *sp;
    char *tp;

    tp = to;
    /*
     * The limit is len-6 here because we need to be leave room for
     * each character to generate an up to 6-character Java-style
     * escape
     */
    for (sp = from; *sp != '\0' && ((tp - to) < ((int)len - 6)); sp++) {
        if (!isascii((unsigned char) *sp) || iscntrl((unsigned char) *sp)) {
            *tp++ = '\\';
            switch (*sp) {
            case '\b':
                *tp++ = 'b';
                break;
            case '\f':
                *tp++ = 'f';
                break;
            case '\n':
                *tp++ = 'n';
                break;
            case '\r':
                *tp++ = 'r';
                break;
            case '\t':
                *tp++ = 't';
                break;
            default:
                /* ugh, we'd prefer a C-style escape here, but this is JSON */
                /* http://www.ietf.org/rfc/rfc4627.txt
                 * section 2.5, escape is \uXXXX */
                /* don't forget the NUL in the output count! */
                (void)snprintf(tp, 6, "u%04x", 0x00ff & (unsigned int)*sp);
                tp += strlen(tp);
            }
        } else {
            if (*sp == '"' || *sp == '\\')
                *tp++ = '\\';
            *tp++ = *sp;
        }
    }
    *tp = '\0';

    return to;
}

void json_version_dump( char *reply, size_t replylen)
{
    (void)snprintf(reply, replylen,
                   "{\"class\":\"VERSION\",\"release\":\"%s\",\"rev\":\"%s\","
                   "\"proto_major\":%d,\"proto_minor\":%d}\r\n",
                   VERSION, REVISION,
                   GPSD_PROTO_VERSION_MAJOR, GPSD_PROTO_VERSION_MINOR);
}

static void json_log_dump(const struct gps_device_t *session,
                   char *reply, size_t replylen)
{
    char tbuf[JSON_DATE_MAX+1];
    const struct gps_log_t *logp = &session->gpsdata.log;

    if (0 >= session->gpsdata.log.then.tv_sec) {
        // no data...
        return;
    }
    (void)snprintf(reply, replylen,
                   "{\"class\":\"LOG\",\"time\":\"%s\",\"idx\":%lu",
                   timespec_to_iso8601(logp->then, tbuf, sizeof(tbuf)),
                   (long)logp->index_cnt);
    if (0 < logp->string[0]) {
        str_appendf(reply, replylen, ",\"string\":%s", logp->string);
    }

    if (STATUS_DGPS_FIX <= logp->status) {
        /* to save rebuilding all the regressions, skip NO_FIX and FIX */
        str_appendf(reply, replylen, ",\"status\":%d", logp->status);
    }
    // Sometimes char is signed, sometimes unsigned, handle both
    if (10 >= (logp->fixType & 0xFF)) {
        str_appendf(reply, replylen, ",\"mode\":%d", logp->fixType);
    }

    if (0 != isfinite(logp->lat)  &&
        0 != isfinite(logp->lon)) {
        str_appendf(reply, replylen, ",\"lat\":%.9f,\"lon\":%.9f",
                    logp->lat, logp->lon);
    }
    if (0 != isfinite(logp->altHAE)) {
        str_appendf(reply, replylen, ",\"altHAE\":%.4f", logp->altHAE);
    }
    if (0 != isfinite(logp->altMSL)) {
        str_appendf(reply, replylen, ",\"altMSL\":%.4f", logp->altMSL);
    }
    if (0 != isfinite(logp->gSpeed)) {
        str_appendf(reply, replylen, ",\"gSpeed\":%.0f", logp->gSpeed);
    }
    if (0 != isfinite(logp->heading)) {
        str_appendf(reply, replylen, ",\"heading\":%.0f", logp->heading);
    }
    if (0 != isfinite(logp->tAcc)) {
        str_appendf(reply, replylen, ",\"tAcc\":%.0f", logp->tAcc);
    }
    if (0 != isfinite(logp->hAcc)) {
        str_appendf(reply, replylen, ",\"hAcc\":%.0f", logp->hAcc);
    }
    if (0 != isfinite(logp->vAcc)) {
        str_appendf(reply, replylen, ",\"tAcc\":%.0f", logp->vAcc);
    }
    if (0 != isfinite(logp->sAcc)) {
        str_appendf(reply, replylen, ",\"sAcc\":%.0f", logp->sAcc);
    }
    if (0 != isfinite(logp->headAcc)) {
        str_appendf(reply, replylen, ",\"headAcc\":%.0f", logp->headAcc);
    }
    if (0 != isfinite(logp->velN) &&
        0 != isfinite(logp->velE)) {
        // 2D fix needs velN and velE
        str_appendf(reply, replylen,
                    ",\"velN\":%.3f,\"velE\":%.3f",
                    logp->velN,
                    logp->velE);
        if (0 != isfinite(logp->velD)) {
            // 3D fix add velD
            str_appendf(reply, replylen, ",\"velD\":%.3f",
                        logp->velD);
        }
    }
    if (0 != isfinite(logp->pDOP)) {
        str_appendf(reply, replylen, ",\"pDOP\":%.1f", logp->pDOP);
    }
    if (0 != isfinite(logp->distance)) {
        str_appendf(reply, replylen, ",\"distance\":%.0f", logp->distance);
    }
    if (0 != isfinite(logp->totalDistance)) {
        str_appendf(reply, replylen, ",\"tDistance\":%.0f",
                    logp->totalDistance);
    }
    if (0 != isfinite(logp->distanceStd)) {
        str_appendf(reply, replylen, ",\"distStd\":%.1f",
                    logp->distanceStd);
    }

    (void)strlcat(reply, "}\r\n", replylen);
}


void json_tpv_dump(const gps_mask_t changed, const struct gps_device_t *session,
                   const struct gps_policy_t *policy,
                   char *reply, size_t replylen)
{
    const struct gps_data_t *gpsdata = &session->gpsdata;

    assert(replylen > sizeof(char *));
    (void)strlcpy(reply, "{\"class\":\"TPV\"", replylen);
    if (gpsdata->dev.path[0] != '\0')
        /* Note: Assumes /dev paths are always plain ASCII */
        str_appendf(reply, replylen, ",\"device\":\"%s\"", gpsdata->dev.path);
    if (STATUS_DGPS_FIX <= gpsdata->fix.status) {
        /* to save rebuilding all the regressions, skip NO_FIX and FIX */
        str_appendf(reply, replylen, ",\"status\":%d", gpsdata->fix.status);
    }
    str_appendf(reply, replylen, ",\"mode\":%d", gpsdata->fix.mode);
    if (0 < gpsdata->fix.time.tv_sec) {
        char tbuf[JSON_DATE_MAX+1];
        str_appendf(reply, replylen,
                       ",\"time\":\"%s\"",
                       timespec_to_iso8601(gpsdata->fix.time,
                                      tbuf, sizeof(tbuf)));
    }
    if (LEAP_SECOND_VALID == (session->context->valid & LEAP_SECOND_VALID)) {
        str_appendf(reply, replylen, ",\"leapseconds\":%d",
                    session->context->leap_seconds);
    }
    if (0 < gpsdata->fix.time.tv_sec) {
        // do not output ept if no time.
        if (isfinite(gpsdata->fix.ept) != 0)
            str_appendf(reply, replylen, ",\"ept\":%.3f", gpsdata->fix.ept);
    }
    /*
     * Suppressing TPV fields that would be invalid because the fix
     * quality doesn't support them is nice for cutting down on the
     * volume of meaningless output, but the real reason to do it is
     * that we've observed that geodetic fix computation is unstable
     * in a way that tends to change low-order digits in invalid
     * fixes. Dumping these tends to cause cross-architecture failures
     * in the regression tests.  This effect has been seen on SiRF-II
     * chips, which are quite common.
     */
    if (gpsdata->fix.mode >= MODE_2D) {
        double altitude = NAN;

        if (isfinite(gpsdata->fix.latitude) != 0)
            str_appendf(reply, replylen,
                           ",\"lat\":%.9f", gpsdata->fix.latitude);
        if (isfinite(gpsdata->fix.longitude) != 0)
            str_appendf(reply, replylen,
                           ",\"lon\":%.9f", gpsdata->fix.longitude);
        if (0 != isfinite(gpsdata->fix.altHAE)) {
            altitude = gpsdata->fix.altHAE;
            str_appendf(reply, replylen,
                           ",\"altHAE\":%.4f", gpsdata->fix.altHAE);
        }
        if (0 != isfinite(gpsdata->fix.altMSL)) {
            altitude = gpsdata->fix.altMSL;
            str_appendf(reply, replylen,
                           ",\"altMSL\":%.4f", gpsdata->fix.altMSL);
        }
        if (0 != isfinite(altitude)) {
            // DEPRECATED, undefined
            str_appendf(reply, replylen,
                           ",\"alt\":%.4f", altitude);
        }

        if (isfinite(gpsdata->fix.epx) != 0)
            str_appendf(reply, replylen, ",\"epx\":%.3f", gpsdata->fix.epx);
        if (isfinite(gpsdata->fix.epy) != 0)
            str_appendf(reply, replylen, ",\"epy\":%.3f", gpsdata->fix.epy);
        if (isfinite(gpsdata->fix.epv) != 0)
            str_appendf(reply, replylen, ",\"epv\":%.3f", gpsdata->fix.epv);
        if (isfinite(gpsdata->fix.track) != 0)
            str_appendf(reply, replylen, ",\"track\":%.4f", gpsdata->fix.track);
        if (0 != isfinite(gpsdata->fix.magnetic_track))
                str_appendf(reply, replylen, ",\"magtrack\":%.4f",
                            gpsdata->fix.magnetic_track);
        if (0 != isfinite(gpsdata->fix.magnetic_var))
                str_appendf(reply, replylen, ",\"magvar\":%.1f",
                            gpsdata->fix.magnetic_var);
        if (isfinite(gpsdata->fix.speed) != 0)
            str_appendf(reply, replylen, ",\"speed\":%.3f", gpsdata->fix.speed);
        if ((gpsdata->fix.mode >= MODE_3D) && isfinite(gpsdata->fix.climb) != 0)
            str_appendf(reply, replylen, ",\"climb\":%.3f", gpsdata->fix.climb);
        if (isfinite(gpsdata->fix.epd) != 0)
            str_appendf(reply, replylen, ",\"epd\":%.4f", gpsdata->fix.epd);
        if (isfinite(gpsdata->fix.eps) != 0)
            str_appendf(reply, replylen, ",\"eps\":%.2f", gpsdata->fix.eps);
        if (gpsdata->fix.mode >= MODE_3D) {
            if (isfinite(gpsdata->fix.epc) != 0)
                str_appendf(reply, replylen, ",\"epc\":%.2f", gpsdata->fix.epc);
            /* ECEF is in meters, so %.3f is millimeter resolution */
            if (0 != isfinite(gpsdata->fix.ecef.x))
                str_appendf(reply, replylen, ",\"ecefx\":%.2f",
                            gpsdata->fix.ecef.x);
            if (0 != isfinite(gpsdata->fix.ecef.y))
                str_appendf(reply, replylen, ",\"ecefy\":%.2f",
                            gpsdata->fix.ecef.y);
            if (0 != isfinite(gpsdata->fix.ecef.z))
                str_appendf(reply, replylen, ",\"ecefz\":%.2f",
                            gpsdata->fix.ecef.z);
            if (0 != isfinite(gpsdata->fix.ecef.vx))
                str_appendf(reply, replylen, ",\"ecefvx\":%.2f",
                            gpsdata->fix.ecef.vx);
            if (0 != isfinite(gpsdata->fix.ecef.vy))
                str_appendf(reply, replylen, ",\"ecefvy\":%.2f",
                            gpsdata->fix.ecef.vy);
            if (0 != isfinite(gpsdata->fix.ecef.vz))
                str_appendf(reply, replylen, ",\"ecefvz\":%.2f",
                            gpsdata->fix.ecef.vz);
            if (0 != isfinite(gpsdata->fix.ecef.pAcc))
                str_appendf(reply, replylen, ",\"ecefpAcc\":%.2f",
                            gpsdata->fix.ecef.pAcc);
            if (0 != isfinite(gpsdata->fix.ecef.vAcc))
                str_appendf(reply, replylen, ",\"ecefvAcc\":%.2f",
                            gpsdata->fix.ecef.vAcc);
            /* NED is in meters, so %.3f is millimeter resolution */
            if (0 != isfinite(gpsdata->fix.NED.relPosN) &&
                0 != isfinite(gpsdata->fix.NED.relPosE)) {
                // 2D fix needs relN and relE
                str_appendf(reply, replylen, ",\"relN\":%.3f,\"relE\":%.3f",
                            gpsdata->fix.NED.relPosN,
                            gpsdata->fix.NED.relPosE);
                if (0 != isfinite(gpsdata->fix.NED.relPosD)) {
                    // 3D fix add relD
                    str_appendf(reply, replylen, ",\"relD\":%.3f",
                                gpsdata->fix.NED.relPosD);
                }
                if (0 != isfinite(gpsdata->fix.NED.relPosH) &&
                    0 != isfinite(gpsdata->fix.NED.relPosL)) {
                    // 2D fix needs relN and relE
                    str_appendf(reply, replylen, ",\"relH\":%.3f,\"relL\":%.3f",
                                gpsdata->fix.NED.relPosH,
                                gpsdata->fix.NED.relPosL);
                }
            }
            if (0 != isfinite(gpsdata->fix.NED.velN) &&
                0 != isfinite(gpsdata->fix.NED.velE)) {
                // 2D fix needs velN and velE
                str_appendf(reply, replylen,
                            ",\"velN\":%.3f,\"velE\":%.3f",
                            gpsdata->fix.NED.velN,
                            gpsdata->fix.NED.velE);
                if (0 != isfinite(gpsdata->fix.NED.velD)) {
                    // 3D fix add velD
                    str_appendf(reply, replylen, ",\"velD\":%.3f",
                                gpsdata->fix.NED.velD);
                }
            }
            if (0 != isfinite(gpsdata->fix.geoid_sep))
                str_appendf(reply, replylen, ",\"geoidSep\":%.3f",
                            gpsdata->fix.geoid_sep);
        }
        if (policy->timing) {
            char rtime_str[TIMESPEC_LEN];
            char ts_buf[TIMESPEC_LEN];
            struct timespec rtime_tmp;
            (void)clock_gettime(CLOCK_REALTIME, &rtime_tmp);
            str_appendf(reply, replylen, ",\"rtime\":%s",
                        timespec_str(&rtime_tmp, rtime_str,
                                     sizeof(rtime_str)));
            if (session->pps_thread.ppsout_count) {
                char ts_str[TIMESPEC_LEN];
                struct timedelta_t timedelta;
                /* ugh - de-consting this might get us in trouble someday */
                pps_thread_ppsout(&((struct gps_device_t *)session)->pps_thread,
                                  &timedelta);
                str_appendf(reply, replylen, ",\"pps\":%s",
                            timespec_str(&timedelta.clock, ts_str,
                                         sizeof(ts_str)));
                /* TODO: add PPS precision to JSON output */
            }
            str_appendf(reply, replylen,
                        ",\"sor\":%s,\"chars\":%lu,\"sats\":%2d,"
                        "\"week\":%u,\"tow\":%lld.%03ld,\"rollovers\":%d",
                        timespec_str(&session->sor, ts_buf, sizeof(ts_buf)),
                        session->chars,
                        gpsdata->satellites_used,
                        session->context->gps_week,
                        (long long)session->context->gps_tow.tv_sec,
                        session->context->gps_tow.tv_nsec / 1000000L,
                        session->context->rollovers);
        }
        /* at the end because it is new and microjson chokes on new items */
        if (0 != isfinite(gpsdata->fix.eph))
            str_appendf(reply, replylen, ",\"eph\":%.3f", gpsdata->fix.eph);
        if (0 != isfinite(gpsdata->fix.sep))
            str_appendf(reply, replylen, ",\"sep\":%.3f", gpsdata->fix.sep);
        if ('\0' != gpsdata->fix.datum[0])
            str_appendf(reply, replylen, ",\"datum\":\"%.40s\"",
                        gpsdata->fix.datum);
        if (0 != isfinite(gpsdata->fix.depth))
            str_appendf(reply, replylen,
                           ",\"depth\":%.3f", gpsdata->fix.depth);
        if (0 != isfinite(gpsdata->fix.dgps_age) &&
            0 <= gpsdata->fix.dgps_station) {
            /* both, or none */
            str_appendf(reply, replylen,
                           ",\"dgpsAge\":%.1f", gpsdata->fix.dgps_age);
            str_appendf(reply, replylen,
                           ",\"dgpsSta\":%d", gpsdata->fix.dgps_station);
        }
    }
    if (0 != (changed & NAVDATA_SET)) {
        if (0 != isfinite(gpsdata->fix.wanglem)){
            str_appendf(reply, replylen,
                        ",\"wanglem\":%.1f", gpsdata->fix.wanglem);
        }
        if (0 != isfinite(gpsdata->fix.wangler)){
            str_appendf(reply, replylen,
                        ",\"wangler\":%.1f", gpsdata->fix.wangler);
        }
        if (0 != isfinite(gpsdata->fix.wanglet)){
            str_appendf(reply, replylen,
                        ",\"wanglet\":%.1f", gpsdata->fix.wanglet);
        }
        if (0 != isfinite(gpsdata->fix.wspeedr)){
            str_appendf(reply, replylen,
                        ",\"wspeedr\":%.1f", gpsdata->fix.wspeedr);
        }
        if (0 != isfinite(gpsdata->fix.wspeedt)){
            str_appendf(reply, replylen,
                        ",\"wspeedt\":%.1f", gpsdata->fix.wspeedt);
        }
    }
    (void)strlcat(reply, "}\r\n", replylen);
}

void json_noise_dump(const struct gps_data_t *gpsdata,
                   char *reply, size_t replylen)
{
    assert(replylen > sizeof(char *));
    (void)strlcpy(reply, "{\"class\":\"GST\"", replylen);
    if (gpsdata->dev.path[0] != '\0')
        str_appendf(reply, replylen, ",\"device\":\"%s\"", gpsdata->dev.path);
    if (0 < gpsdata->gst.utctime.tv_sec) {
        char tbuf[JSON_DATE_MAX+1];
        str_appendf(reply, replylen,
                   ",\"time\":\"%s\"",
                   timespec_to_iso8601(gpsdata->gst.utctime,
                                       tbuf, sizeof(tbuf)));
    }
#define ADD_GST_FIELD(tag, field) do {                     \
    if (isfinite(gpsdata->gst.field) != 0)              \
        str_appendf(reply, replylen, ",\"" tag "\":%.3f", gpsdata->gst.field); \
    } while(0)

    ADD_GST_FIELD("rms",    rms_deviation);
    ADD_GST_FIELD("major",  smajor_deviation);
    ADD_GST_FIELD("minor",  sminor_deviation);
    ADD_GST_FIELD("orient", smajor_orientation);
    ADD_GST_FIELD("lat",    lat_err_deviation);
    ADD_GST_FIELD("lon",    lon_err_deviation);
    ADD_GST_FIELD("alt",    alt_err_deviation);

#undef ADD_GST_FIELD

    (void)strlcat(reply, "}\r\n", replylen);
}

void json_sky_dump(const struct gps_data_t *datap,
                   char *reply, size_t replylen)
{
    int i, reported = 0, used = 0;

    assert(replylen > sizeof(char *));
    (void)strlcpy(reply, "{\"class\":\"SKY\"", replylen);
    if (datap->dev.path[0] != '\0')
        str_appendf(reply, replylen, ",\"device\":\"%s\"", datap->dev.path);
    if (0 < datap->skyview_time.tv_sec) {
        char tbuf[JSON_DATE_MAX+1];
        str_appendf(reply, replylen,
                       ",\"time\":\"%s\"",
                       timespec_to_iso8601(datap->skyview_time,
                                      tbuf, sizeof(tbuf)));
    }
    if (isfinite(datap->dop.xdop) != 0)
        str_appendf(reply, replylen, ",\"xdop\":%.2f", datap->dop.xdop);
    if (isfinite(datap->dop.ydop) != 0)
        str_appendf(reply, replylen, ",\"ydop\":%.2f", datap->dop.ydop);
    if (isfinite(datap->dop.vdop) != 0)
        str_appendf(reply, replylen, ",\"vdop\":%.2f", datap->dop.vdop);
    if (isfinite(datap->dop.tdop) != 0)
        str_appendf(reply, replylen, ",\"tdop\":%.2f", datap->dop.tdop);
    if (isfinite(datap->dop.hdop) != 0)
        str_appendf(reply, replylen, ",\"hdop\":%.2f", datap->dop.hdop);
    if (isfinite(datap->dop.gdop) != 0)
        str_appendf(reply, replylen, ",\"gdop\":%.2f", datap->dop.gdop);
    if (isfinite(datap->dop.pdop) != 0)
        str_appendf(reply, replylen, ",\"pdop\":%.2f", datap->dop.pdop);
    /* insurance against flaky drivers */
    for (i = 0; i < datap->satellites_visible; i++)
        if (datap->skyview[i].PRN) {
            reported++;
            if (datap->skyview[i].used) {
                used++;
            }
        }
    str_appendf(reply, replylen, ",\"nSat\":%d,\"uSat\":%d", reported, used);
    if (reported) {
        (void)strlcat(reply, ",\"satellites\":[", replylen);
        for (i = 0; i < reported; i++) {
            if (datap->skyview[i].PRN) {
                str_appendf(reply, replylen, "{\"PRN\":%d",
                            datap->skyview[i].PRN);
                if (0 != isfinite(datap->skyview[i].elevation) &&
                    90 >= fabs(datap->skyview[i].elevation)) {
                    str_appendf(reply, replylen, ",\"el\":%.1f",
                                datap->skyview[i].elevation);
                }
                if (0 != isfinite(datap->skyview[i].azimuth) &&
                    0 <= fabs(datap->skyview[i].azimuth) &&
                    359 >= fabs(datap->skyview[i].azimuth)) {
                    str_appendf(reply, replylen, ",\"az\":%.1f",
                                datap->skyview[i].azimuth);
                }
                if (0 != isfinite(datap->skyview[i].ss)) {
                    str_appendf(reply, replylen, ",\"ss\":%.1f",
                                datap->skyview[i].ss);
                }
                str_appendf(reply, replylen,
                   ",\"used\":%s",
                   datap->skyview[i].used ? "true" : "false");
                if (0 != datap->skyview[i].svid) {
                    str_appendf(reply, replylen,
                       ",\"gnssid\":%d,\"svid\":%d",
                       datap->skyview[i].gnssid,
                       datap->skyview[i].svid);
                }
                if (0 != datap->skyview[i].sigid) {
                    str_appendf(reply, replylen,
                       ",\"sigid\":%d", datap->skyview[i].sigid);
                }
                if (GNSSID_GLO == datap->skyview[i].gnssid &&
                    0 <= datap->skyview[i].freqid &&
                    16 >= datap->skyview[i].freqid) {
                    str_appendf(reply, replylen,
                       ",\"freqid\":%d", datap->skyview[i].freqid);
                }
                if (SAT_HEALTH_UNK != datap->skyview[i].health) {
                    str_appendf(reply, replylen,
                       ",\"health\":%d", datap->skyview[i].health);
                }
                (void)strlcat(reply, "},", replylen);
            }
        }
        str_rstrip_char(reply, ',');
        (void)strlcat(reply, "]", replylen);
    }
    (void)strlcat(reply, "}\r\n", replylen);
}

void json_device_dump(const struct gps_device_t *device,
                      char *reply, size_t replylen)
{
    struct classmap_t *cmp;
    char buf1[JSON_VAL_MAX * 2 + 1];

    (void)strlcpy(reply, "{\"class\":\"DEVICE\",\"path\":\"", replylen);
    (void)strlcat(reply, device->gpsdata.dev.path, replylen);
    (void)strlcat(reply, "\"", replylen);
    if (device->device_type != NULL) {
        (void)strlcat(reply, ",\"driver\":\"", replylen);
        (void)strlcat(reply, device->device_type->type_name, replylen);
        (void)strlcat(reply, "\"", replylen);
    }
    if (device->subtype[0] != '\0') {
        (void)strlcat(reply, ",\"subtype\":\"", replylen);
        (void)strlcat(reply,
                      json_stringify(buf1, sizeof(buf1), device->subtype),
                      replylen);
        (void)strlcat(reply, "\"", replylen);
    }
    if (device->subtype1[0] != '\0') {
        (void)strlcat(reply, ",\"subtype1\":\"", replylen);
        (void)strlcat(reply,
                      json_stringify(buf1, sizeof(buf1), device->subtype1),
                      replylen);
        (void)strlcat(reply, "\"", replylen);
    }
    /*
     * There's an assumption here: Anything that we type service_sensor is
     * a serial device with the usual control parameters.
     */
    if (0 < device->gpsdata.online.tv_sec) {
        /* odd, using online, not activated, time */
        str_appendf(reply, replylen, ",\"activated\":\"%s\"",
                    timespec_to_iso8601(device->gpsdata.online,
                                        buf1, sizeof(buf1)));
        if (device->observed != 0) {
            int mask = 0;
            for (cmp = classmap; cmp < classmap + NITEMS(classmap); cmp++)
                if ((device->observed & cmp->packetmask) != 0)
                    mask |= cmp->typemask;
            if (mask != 0)
                str_appendf(reply, replylen, ",\"flags\":%d", mask);
        }
        if (device->servicetype == service_sensor) {
            /* speed can be 0 if the device is not currently active */
            speed_t speed = gpsd_get_speed(device);
            if (speed != 0)
                str_appendf(reply, replylen,
                            ",\"native\":%d,\"bps\":%d,\"parity\":\"%c\","
                            "\"stopbits\":%u,\"cycle\":%lld.%02ld",
                            device->gpsdata.dev.driver_mode,
                            (int)speed,
                            device->gpsdata.dev.parity,
                            device->gpsdata.dev.stopbits,
                            (long long)device->gpsdata.dev.cycle.tv_sec,
                            device->gpsdata.dev.cycle.tv_nsec / 10000000);
            if (device->device_type != NULL
                && device->device_type->rate_switcher != NULL)
                str_appendf(reply, replylen,
                               ",\"mincycle\":%lld.%02ld",
                               (long long)device->device_type->min_cycle.tv_sec,
                               device->device_type->min_cycle.tv_nsec /
                               10000000);
        }
    }
    (void)strlcat(reply, "}\r\n", replylen);
}

void json_watch_dump(const struct gps_policy_t *ccp,
                     char *reply, size_t replylen)
{
    (void)snprintf(reply, replylen,
                   "{\"class\":\"WATCH\",\"enable\":%s,\"json\":%s,"
                   "\"nmea\":%s,\"raw\":%d,\"scaled\":%s,\"timing\":%s,"
                   "\"split24\":%s,\"pps\":%s",
                   ccp->watcher ? "true" : "false",
                   ccp->json ? "true" : "false",
                   ccp->nmea ? "true" : "false",
                   ccp->raw,
                   ccp->scaled ? "true" : "false",
                   ccp->timing ? "true" : "false",
                   ccp->split24 ? "true" : "false",
                   ccp->pps ? "true" : "false");
    // UNUSED: loglevel, remote
    if (ccp->devpath[0] != '\0')
        str_appendf(reply, replylen, ",\"device\":\"%s\"", ccp->devpath);
    (void)strlcat(reply, "}\r\n", replylen);
}

void json_subframe_dump(const struct gps_data_t *datap, const bool scaled,
                        char buf[], size_t buflen)
{
    const struct subframe_t *subframe = &datap->subframe;
    int i;

    // TOW17 is always scaled
    (void)snprintf(buf, buflen, "{\"class\":\"SUBFRAME\",\"device\":\"%s\","
                   "\"tSV\":%u,\"TOW17\":%lu,\"frame\":%u,\"scaled\":%s",
                   datap->dev.path,
                   (unsigned int)subframe->tSVID,
                   subframe->l_TOW17,
                   (unsigned int)subframe->subframe_num,
                   JSON_BOOL(scaled));

    switch (subframe->subframe_num) {
    case 1:
        if (scaled) {
            str_appendf(buf, buflen,
                        ",\"EPHEM1\":{\"WN\":%u,\"IODC\":%u,\"L2\":%u,"
                        "\"ura\":%u,\"hlth\":%u,\"L2P\":%u,\"Tgd\":%g,"
                        "\"toc\":%lu,\"af2\":%.4g,\"af1\":%.6e,\"af0\":%.7e}",
                        (unsigned int)subframe->sub1.WN,
                        (unsigned int)subframe->sub1.IODC,
                        (unsigned int)subframe->sub1.l2,
                        subframe->sub1.ura,
                        subframe->sub1.hlth,
                        (unsigned int)subframe->sub1.l2p,
                        subframe->sub1.d_Tgd,
                        (unsigned long)subframe->sub1.l_toc,
                        subframe->sub1.d_af2,
                        subframe->sub1.d_af1,
                        subframe->sub1.d_af0);
        } else {
            str_appendf(buf, buflen,
                        ",\"EPHEM1\":{\"WN\":%u,\"IODC\":%u,\"L2\":%u,"
                        "\"ura\":%u,\"hlth\":%u,\"L2P\":%u,\"Tgd\":%d,"
                        "\"toc\":%u,\"af2\":%ld,\"af1\":%d,\"af0\":%d}",
                        (unsigned int)subframe->sub1.WN,
                        (unsigned int)subframe->sub1.IODC,
                        (unsigned int)subframe->sub1.l2,
                        subframe->sub1.ura,
                        subframe->sub1.hlth,
                        (unsigned int)subframe->sub1.l2p,
                        (int)subframe->sub1.Tgd,
                        (unsigned int)subframe->sub1.toc,
                        (long)subframe->sub1.af2,
                        (int)subframe->sub1.af1,
                        (int)subframe->sub1.af0);
        }
        break;
    case 2:
        if (scaled) {
            str_appendf(buf, buflen,
                        ",\"EPHEM2\":{\"IODE\":%u,\"Crs\":%.6e,\"deltan\":%.6e,"
                        "\"M0\":%.11e,\"Cuc\":%.6e,\"e\":%e,\"Cus\":%.6e,"
                        "\"sqrtA\":%.11g,\"toe\":%lu,\"FIT\":%u,\"AODO\":%u}",
                        (unsigned int)subframe->sub2.IODE,
                        subframe->sub2.d_Crs,
                        subframe->sub2.d_deltan,
                        subframe->sub2.d_M0,
                        subframe->sub2.d_Cuc,
                        subframe->sub2.d_eccentricity,
                        subframe->sub2.d_Cus,
                        subframe->sub2.d_sqrtA,
                        (unsigned long)subframe->sub2.l_toe,
                        (unsigned int)subframe->sub2.fit,
                        (unsigned int)subframe->sub2.u_AODO);
        } else {
            str_appendf(buf, buflen,
                        ",\"EPHEM2\":{\"IODE\":%u,\"Crs\":%d,\"deltan\":%d,"
                        "\"M0\":%ld,\"Cuc\":%d,\"e\":%ld,\"Cus\":%d,"
                        "\"sqrtA\":%lu,\"toe\":%lu,\"FIT\":%u,\"AODO\":%u}",
                        (unsigned int)subframe->sub2.IODE,
                        (int)subframe->sub2.Crs,
                        (int)subframe->sub2.deltan,
                        (long)subframe->sub2.M0,
                        (int)subframe->sub2.Cuc,
                        (long)subframe->sub2.e,
                        (int)subframe->sub2.Cus,
                        (unsigned long)subframe->sub2.sqrtA,
                        (unsigned long)subframe->sub2.toe,
                        (unsigned int)subframe->sub2.fit,
                        (unsigned int)subframe->sub2.AODO);
        }
        break;
    case 3:
        if (scaled) {
            str_appendf(buf, buflen,
                        ",\"EPHEM3\":{\"IODE\":%3u,\"IDOT\":%.6g,\"Cic\":%.6e,"
                        "\"Omega0\":%.11e,\"Cis\":%.7g,\"i0\":%.11e,"
                        "\"Crc\":%.7g,\"omega\":%.11e,\"Omegad\":%.6e}",
                        (unsigned int)subframe->sub3.IODE,
                        subframe->sub3.d_IDOT,
                        subframe->sub3.d_Cic,
                        subframe->sub3.d_Omega0,
                        subframe->sub3.d_Cis,
                        subframe->sub3.d_i0,
                        subframe->sub3.d_Crc,
                        subframe->sub3.d_omega,
                        subframe->sub3.d_Omegad );
        } else {
            str_appendf(buf, buflen,
                        ",\"EPHEM3\":{\"IODE\":%u,\"IDOT\":%u,\"Cic\":%u,"
                        "\"Omega0\":%ld,\"Cis\":%d,\"i0\":%ld,\"Crc\":%d,"
                        "\"omega\":%ld,\"Omegad\":%ld}",
                        (unsigned int)subframe->sub3.IODE,
                        (unsigned int)subframe->sub3.IDOT,
                        (unsigned int)subframe->sub3.Cic,
                        (long int)subframe->sub3.Omega0,
                        (int)subframe->sub3.Cis,
                        (long int)subframe->sub3.i0,
                        (int)subframe->sub3.Crc,
                        (long int)subframe->sub3.omega,
                        (long int)subframe->sub3.Omegad);
        }
        break;
    case 4:
        FALLTHROUGH
    case 5:
        // pageid is unique to all of subframes 4 and 5, handle as one

        str_appendf(buf, buflen, ",\"dataid\":%u",
                    (unsigned int)subframe->pageid);
        if (subframe->is_almanac) {
            if (scaled) {
                str_appendf(buf, buflen,
                            ",\"ALMANAC\":{\"ID\":%d,\"Health\":%u,"
                            "\"e\":%.10e,\"toa\":%lu,"
                            "\"deltai\":%.10e,\"Omegad\":%.10e,\"sqrtA\":%.10g,"
                            "\"Omega0\":%.10e,\"omega\":%.10e,\"M0\":%.11e,"
                            "\"af0\":%.10e,\"af1\":%.10e}",
                            (int)subframe->sub5.almanac.sv,
                            (unsigned int)subframe->sub5.almanac.svh,
                            subframe->sub5.almanac.d_eccentricity,
                            subframe->sub5.almanac.l_toa,
                            subframe->sub5.almanac.d_deltai,
                            subframe->sub5.almanac.d_Omegad,
                            subframe->sub5.almanac.d_sqrtA,
                            subframe->sub5.almanac.d_Omega0,
                            subframe->sub5.almanac.d_omega,
                            subframe->sub5.almanac.d_M0,
                            subframe->sub5.almanac.d_af0,
                            subframe->sub5.almanac.d_af1);
            } else {
                str_appendf(buf, buflen,
                            ",\"ALMANAC\":{\"ID\":%d,\"Health\":%u,"
                            "\"e\":%u,\"toa\":%u,"
                            "\"deltai\":%d,\"Omegad\":%d,\"sqrtA\":%lu,"
                            "\"Omega0\":%ld,\"omega\":%ld,\"M0\":%ld,"
                            "\"af0\":%d,\"af1\":%d}",
                            (int)subframe->sub5.almanac.sv,
                            (unsigned int)subframe->sub5.almanac.svh,
                            (unsigned int)subframe->sub5.almanac.e,
                            (unsigned int)subframe->sub5.almanac.toa,
                            (int)subframe->sub5.almanac.deltai,
                            (int)subframe->sub5.almanac.Omegad,
                            (unsigned long)subframe->sub5.almanac.sqrtA,
                            (long)subframe->sub5.almanac.Omega0,
                            (long)subframe->sub5.almanac.omega,
                            (long)subframe->sub5.almanac.M0,
                            (int)subframe->sub5.almanac.af0,
                            (int)subframe->sub5.almanac.af1);
            }
        } else {
            switch (subframe->pageid ) {
            case 51:    // subframe5, page 25
                str_appendf(buf, buflen,
                    ",\"HEALTH2\":{\"toa\":%lu,\"WNa\":%u",
                               subframe->sub5_25.l_toa,
                               (unsigned int)subframe->sub5_25.WNa);
                /* 1-index loop to construct json */
                for(i = 1 ; i <= 24; i++){
                    str_appendf(buf, buflen,
                                ",\"SVH%d\":%u",
                                i, subframe->sub5_25.sv[i]);
                }
                str_appendf(buf, buflen, "}");
                break;

            case 52:    // data ID 52, subframe 4, page 13, aka NMCT
                /* decoding of ERD to SV is non trivial and not done yet */
                str_appendf(buf, buflen,
                    ",\"NMCT\":{\"ai\":%u", subframe->sub4_13.ai);

                // 1-index loop to construct json, rather than giant snprintf
                // ERD for SV 32, and for transmitting SV, are never sent.
                for(i = 1 ; i < 32; i++){
                    // 0xe0 is sign extended 0x20, is -32, marked invalid
                    if (scaled) {
                        // JSON has no nan, use "null" instead
                        if (-32 >= subframe->sub4_13.ERD[i]) {
                            str_appendf(buf, buflen, ",\"ERD%d\":\"null\"", i);
                        } else {
                            str_appendf(buf, buflen, ",\"ERD%d\":%.3f", i,
                                        subframe->sub4_13.ERD[i] * 0.3);
                        }
                    } else {
                        str_appendf(buf, buflen, ",\"ERD%d\":%d", i,
                                    subframe->sub4_13.ERD[i]);
                    }
                }
                str_appendf(buf, buflen, "}");
                break;

            case 55:   // subframe 4, page 17, System Message
                /* JSON is UTF-8. double quote, backslash and
                 * control charactores (U+0000 through U+001F).must be
                 * escaped. */
                /* system message can be 24 bytes, JSON can escape all
                 * chars so up to 24*6 long. */

                {
                    char buf1[25 * 6];
                    (void)json_stringify(buf1, sizeof(buf1),
                                         subframe->sub4_17.str);
                    str_appendf(buf, buflen, ",\"system_message\":\"%.144s\"",
                                buf1);
                }
                break;

            case 56:   // subframe 4, page 18
                if (scaled) {
                    str_appendf(buf, buflen,
                        ",\"IONO\":{\"a0\":%.5g,\"a1\":%.5g,\"a2\":%.5g,"
                        "\"a3\":%.5g,\"b0\":%.5g,\"b1\":%.5g,\"b2\":%.5g,"
                        "\"b3\":%.5g,\"A1\":%.11e,\"A0\":%.11e,"
                        "\"tot\":%lu,\"WNt\":%u,\"ls\":%d,\"WNlsf\":%u,"
                        "\"DN\":%u,\"lsf\":%d}",
                        subframe->sub4_18.d_alpha0,
                        subframe->sub4_18.d_alpha1,
                        subframe->sub4_18.d_alpha2,
                        subframe->sub4_18.d_alpha3,
                        subframe->sub4_18.d_beta0,
                        subframe->sub4_18.d_beta1,
                        subframe->sub4_18.d_beta2,
                        subframe->sub4_18.d_beta3,
                        subframe->sub4_18.d_A1,
                        subframe->sub4_18.d_A0,
                        subframe->sub4_18.t_tot,
                        subframe->sub4_18.WNt,
                        subframe->sub4_18.leap,
                        subframe->sub4_18.WNlsf,
                        subframe->sub4_18.DN,
                        subframe->sub4_18.lsf);
                } else {
                    str_appendf(buf, buflen,
                        ",\"IONO\":{\"a0\":%d,\"a1\":%d,\"a2\":%d,"
                        "\"a3\":%d,\"b0\":%d,\"b1\":%d,\"b2\":%d,"
                        "\"b3\":%d,\"A1\":%ld,\"A0\":%ld,\"tot\":%u,"
                        "\"WNt\":%u,\"ls\":%d,\"WNlsf\":%u,\"DN\":%u,"
                        "\"lsf\":%d}",
                        (int)subframe->sub4_18.alpha0,
                        (int)subframe->sub4_18.alpha1,
                        (int)subframe->sub4_18.alpha2,
                        (int)subframe->sub4_18.alpha3,
                        (int)subframe->sub4_18.beta0,
                        (int)subframe->sub4_18.beta1,
                        (int)subframe->sub4_18.beta2,
                        (int)subframe->sub4_18.beta3,
                        (long)subframe->sub4_18.A1,
                        (long)subframe->sub4_18.A0,
                        subframe->sub4_18.tot,
                        subframe->sub4_18.WNt,
                        subframe->sub4_18.leap,
                        subframe->sub4_18.WNlsf,
                        subframe->sub4_18.DN,
                        subframe->sub4_18.lsf);
                }
                break;
            case 63:      // subframe 4, page 25
                str_appendf(buf, buflen, ",\"HEALTH\":{\"SV1\":%d",
                                (int)subframe->sub4_25.svf[1]);

                // 1-index loop to construct json, rather than giant snprintf
                for(i = 2 ; i <= 32; i++){
                    str_appendf(buf, buflen, ",\"SV%d\":%u",
                                i, subframe->sub4_25.svf[i]);
                }
                for(i = 0 ; i < 8; i++){ /* 0-index */
                    str_appendf(buf, buflen, ",\"SVH%d\":%u",
                                i + 25, subframe->sub4_25.svhx[i]);
                }
                str_appendf(buf, buflen, "}");
                break;
            default:
                break;
            }
        }
    }
    (void)strlcat(buf, "}\r\n", buflen);
}

/* RAW dump - should be good enough to make a RINEX 3 file */
void json_raw_dump(const struct gps_data_t *gpsdata,
                   char *reply, size_t replylen)
{
    int i;

    assert(replylen > sizeof(char *));
    if (0 == gpsdata->raw.mtime.tv_sec) {
        /* no data to dump */
        return;
    }
    (void)strlcpy(reply, "{\"class\":\"RAW\"", replylen);
    if (gpsdata->dev.path[0] != '\0')
        str_appendf(reply, replylen, ",\"device\":\"%s\"", gpsdata->dev.path);

    str_appendf(reply, replylen, ",\"time\":%lld,\"nsec\":%ld,\"rawdata\":[",
                (long long)gpsdata->raw.mtime.tv_sec,
                gpsdata->raw.mtime.tv_nsec);

    for (i = 0; i < MAXCHANNELS; i++) {
        if (0 == gpsdata->raw.meas[i].svid ||
            255 == gpsdata->raw.meas[i].svid) {
            /* skip empty and GLONASS 255 */
            continue;
        }
        str_appendf(reply, replylen,
                    "{\"gnssid\":%u,\"svid\":%u,\"snr\":%u,"
                    "\"obs\":\"%s\",\"lli\":%1u,\"locktime\":%u",
                    gpsdata->raw.meas[i].gnssid, gpsdata->raw.meas[i].svid,
                    gpsdata->raw.meas[i].snr,
                    gpsdata->raw.meas[i].obs_code, gpsdata->raw.meas[i].lli,
                    gpsdata->raw.meas[i].locktime);
        if (0 < gpsdata->raw.meas[i].sigid) {
            str_appendf(reply, replylen, ",\"sigid\":%u",
                        gpsdata->raw.meas[i].sigid);
        }
        if (GNSSID_GLO == gpsdata->raw.meas[i].gnssid) {
            str_appendf(reply, replylen, ",\"freqid\":%u",
                        gpsdata->raw.meas[i].freqid);
        }

        if (0 != isfinite(gpsdata->raw.meas[i].pseudorange) &&
            1.0 < gpsdata->raw.meas[i].pseudorange) {
            str_appendf(reply, replylen, ",\"pseudorange\":%f",
                        gpsdata->raw.meas[i].pseudorange);

            if (0 != isfinite(gpsdata->raw.meas[i].carrierphase)) {
                str_appendf(reply, replylen, ",\"carrierphase\":%f",
                            gpsdata->raw.meas[i].carrierphase);
            }
        }
        if (0 != isfinite(gpsdata->raw.meas[i].doppler)) {
            str_appendf(reply, replylen, ",\"doppler\":%f",
                        gpsdata->raw.meas[i].doppler);
        }

        /* L2 C/A pseudo range, RINEX C2C */
        if (0 != isfinite(gpsdata->raw.meas[i].c2c) &&
            1.0 < gpsdata->raw.meas[i].c2c) {
            str_appendf(reply, replylen, ",\"c2c\":%f",
                        gpsdata->raw.meas[i].c2c);

            /* L2 C/A carrier phase, RINEX L2C */
            if (0 != isfinite(gpsdata->raw.meas[i].l2c)) {
                str_appendf(reply, replylen, ",\"l2c\":%f",
                            gpsdata->raw.meas[i].l2c);
            }
        }
        (void)strlcat(reply, "},", replylen);
    }
    str_rstrip_char(reply, ',');
    (void)strlcat(reply, "]}\r\n", replylen);
}

#if defined(RTCM104V2_ENABLE)

/* compare two struct rtk_sat_t */
static int rtk_sat_cmp(const void *a, const void *b)
{
    const struct rtk_sat_t *A = (const struct rtk_sat_t*)a;
    const struct rtk_sat_t *B = (const struct rtk_sat_t*)b;
    return A->ident - B->ident;
}

void json_rtcm2_dump(const struct rtcm2_t *rtcm,
                     const char *device,
                     char buf[], size_t buflen)
/* dump the contents of a parsed RTCM104 message as JSON */
{
    char buf1[JSON_VAL_MAX * 2 + 1];
    unsigned int n;

    if (NULL == rtcm) {
        // shut up clang about possible NULL pointer
        return;
    }

    (void)snprintf(buf, buflen, "{\"class\":\"RTCM2\",");
    if (device != NULL && device[0] != '\0')
        str_appendf(buf, buflen, "\"device\":\"%s\",", device);
    str_appendf(buf, buflen,
                   "\"type\":%u,\"station_id\":%u,\"zcount\":%0.1f,"
                   "\"seqnum\":%u,\"length\":%u,\"station_health\":%u,",
                   rtcm->type, rtcm->refstaid, rtcm->zcount, rtcm->seqnum,
                   rtcm->length, rtcm->stathlth);

    switch (rtcm->type) {
    case 1:
    case 9:
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (n = 0; n < rtcm->gps_ranges.nentries; n++) {
            const struct gps_rangesat_t *rsp = &rtcm->gps_ranges.sat[n];
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"udre\":%u,\"iod\":%u,"
                           "\"prc\":%0.3f,\"rrc\":%0.3f},",
                           rsp->ident,
                           rsp->udre, rsp->iod,
                           rsp->prc, rsp->rrc);
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 3:
        if (rtcm->ref_sta.valid)
            str_appendf(buf, buflen,
                           "\"x\":%.2f,\"y\":%.2f,\"z\":%.2f,",
                           rtcm->ref_sta.x, rtcm->ref_sta.y, rtcm->ref_sta.z);
        break;

    case 4:
        if (rtcm->reference.valid) {
            /*
             * Beware! Needs to stay synchronized with a JSON
             * enumeration map in the parser. This interpretation of
             * NAVSYSTEM_GALILEO is assumed from RTCM3, it's not
             * actually documented in RTCM 2.1 or 2.2.
             */
            static char *navsysnames[] = { "GPS", "GLONASS", "GALILEO" };
            str_appendf(buf, buflen,
                           "\"system\":\"%s\",\"sense\":%1d,"
                           "\"datum\":\"%s\",\"dx\":%.1f,\"dy\":%.1f,"
                           "\"dz\":%.1f,",
                           rtcm->reference.system >= NITEMS(navsysnames)
                           ? "UNKNOWN"
                           : navsysnames[rtcm->reference.system],
                           rtcm->reference.sense,
                           rtcm->reference.datum,
                           rtcm->reference.dx,
                           rtcm->reference.dy, rtcm->reference.dz);
        }
        break;

    case 5:
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (n = 0; n < rtcm->conhealth.nentries; n++) {
            const struct consat_t *csp = &rtcm->conhealth.sat[n];
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"iodl\":%s,\"health\":%1u,"
                           "\"snr\":%d,\"health_en\":%s,\"new_data\":%s,"
                           "\"los_warning\":%s,\"tou\":%u},",
                           csp->ident,
                           JSON_BOOL(csp->iodl),
                           (unsigned)csp->health,
                           csp->snr,
                           JSON_BOOL(csp->health_en),
                           JSON_BOOL(csp->new_data),
                           JSON_BOOL(csp->los_warning), csp->tou);
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 6:                     /* NOP msg */
        break;

    case 7:
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (n = 0; n < rtcm->almanac.nentries; n++) {
            const struct station_t *ssp = &rtcm->almanac.station[n];
            str_appendf(buf, buflen,
                           "{\"lat\":%.4f,\"lon\":%.4f,\"range\":%u,"
                           "\"frequency\":%.1f,\"health\":%u,"
                           "\"station_id\":%u,\"bitrate\":%u},",
                           ssp->latitude,
                           ssp->longitude,
                           ssp->range,
                           ssp->frequency,
                           ssp->health, ssp->station_id, ssp->bitrate);
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 13:
        str_appendf(buf, buflen,
                       "\"status\":%s,\"rangeflag\":%s,"
                       "\"lat\":%.2f,\"lon\":%.2f,\"range\":%u,",
                       JSON_BOOL(rtcm->xmitter.status),
                       JSON_BOOL(rtcm->xmitter.rangeflag),
                       rtcm->xmitter.lat,
                       rtcm->xmitter.lon,
                       rtcm->xmitter.range);
        break;

    case 14:
        str_appendf(buf, buflen,
                       "\"week\":%u,\"hour\":%u,\"leapsecs\":%u,",
                       rtcm->gpstime.week,
                       rtcm->gpstime.hour,
                       rtcm->gpstime.leapsecs);
        break;

    case 16:
        str_appendf(buf, buflen,
                       "\"message\":\"%s\"", json_stringify(buf1,
                                                            sizeof(buf1),
                                                            rtcm->message));
        break;

    case 18:
        str_appendf(buf, buflen, "\"tom\":%u,\"f\":%u,",
                    rtcm->rtk.tom, rtcm->rtk.f);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        // sorted lists are nicer
        qsort((void *)rtcm->rtk.sat, rtcm->rtk.nentries,
              sizeof(rtcm->rtk.sat[0]), rtk_sat_cmp);
        for (n = 0; n < rtcm->rtk.nentries; n++) {
            str_appendf(buf, buflen,
                        "{\"ident\":%u,\"m\":%u,\"pc\":%u,\"g\":%u,\"dq\":%u,"
                        "\"clc\":%u,\"carrierphase\":%u},",
                           rtcm->rtk.sat[n].ident,
                           rtcm->rtk.sat[n].m,
                           rtcm->rtk.sat[n].pc,
                           rtcm->rtk.sat[n].g,
                           rtcm->rtk.sat[n].dq,
                           rtcm->rtk.sat[n].clc,
                           rtcm->rtk.sat[n].carrier_phase);
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 19:
        str_appendf(buf, buflen, "\"tom\":%u,\"f\":%u,\"sm\":%u,",
                    rtcm->rtk.tom, rtcm->rtk.f, rtcm->rtk.sm);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        // sorted lists are nicer
        qsort((void *)rtcm->rtk.sat, rtcm->rtk.nentries,
              sizeof(rtcm->rtk.sat[0]), rtk_sat_cmp);
        for (n = 0; n < rtcm->rtk.nentries; n++) {
            str_appendf(buf, buflen,
                        "{\"ident\":%u,\"m\":%u,\"pc\":%u,\"g\":%u,\"dq\":%u,"
                        "\"me\":%u,\"pseudorange\":%u},",
                           rtcm->rtk.sat[n].ident,
                           rtcm->rtk.sat[n].m,
                           rtcm->rtk.sat[n].pc,
                           rtcm->rtk.sat[n].g,
                           rtcm->rtk.sat[n].dq,
                           rtcm->rtk.sat[n].me,
                           rtcm->rtk.sat[n].pseudorange);
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 20:
        str_appendf(buf, buflen, "\"tom\":%u,\"f\":%u,",
                    rtcm->rtk.tom, rtcm->rtk.f);
        break;

    case 21:
        str_appendf(buf, buflen, "\"tom\":%u,\"f\":%u,\"sm\":%u,",
                    rtcm->rtk.tom, rtcm->rtk.f, rtcm->rtk.sm);
        break;

    case 22:
        str_appendf(buf, buflen, "\"gs\":%u,", rtcm->ref_sta.gs);

        if (0 != isfinite(rtcm->ref_sta.dx) &&
            0 != isfinite(rtcm->ref_sta.dy) &&
            0 != isfinite(rtcm->ref_sta.dz)) {
            // L1 ECEF deltas
            str_appendf(buf, buflen,
                        "\"dx\":%.6f,\"dy\":%.6f,\"dz\":%.6f,",
                        rtcm->ref_sta.dx, rtcm->ref_sta.dy,
                        rtcm->ref_sta.dz);
        }
        if (0 != isfinite(rtcm->ref_sta.ah)) {
            // Antenna Height above reference point, cm
            str_appendf(buf, buflen, "\"ah\":%.6f,", rtcm->ref_sta.ah);
        }
        if (0 != isfinite(rtcm->ref_sta.dx2) &&
            0 != isfinite(rtcm->ref_sta.dy2) &&
            0 != isfinite(rtcm->ref_sta.dz2)) {
            // L2 ECEF deltas
            str_appendf(buf, buflen,
                           "\"dx2\":%.6f,\"dy2\":%.6f,\"dz2\":%.6f,",
                           rtcm->ref_sta.dx, rtcm->ref_sta.dy2,
                           rtcm->ref_sta.dz);
        }
        break;

    case 23:
        str_appendf(buf, buflen, "\"ar\":\"%d\",\"sid\":\"%u\",",
                    rtcm->ref_sta.ar,
                    rtcm->ref_sta.setup_id);
        if ('\0' != rtcm->ref_sta.ant_desc[0]) {
            str_appendf(buf, buflen, "\"ad\":\"%.32s\",",
                        rtcm->ref_sta.ant_desc);
        }
        if ('\0' != rtcm->ref_sta.ant_serial[0]) {
            str_appendf(buf, buflen, "\"as\":\"%.32s\",",
                        rtcm->ref_sta.ant_serial);
        }
        break;

    case 24:
        str_appendf(buf, buflen, "\"gs\":%u,", rtcm->ref_sta.gs);

        if (0 != isfinite(rtcm->ref_sta.x) &&
            0 != isfinite(rtcm->ref_sta.y) &&
            0 != isfinite(rtcm->ref_sta.z)) {
            // L1 ECEF
            str_appendf(buf, buflen,
                        "\"x\":%.4f,\"y\":%.4f,\"z\":%.4f,",
                        rtcm->ref_sta.x, rtcm->ref_sta.y, rtcm->ref_sta.z);
        }
        if (0 != isfinite(rtcm->ref_sta.ah)) {
            // Antenna Height above reference point, cm
            str_appendf(buf, buflen, "\"ah\":%.4f,", rtcm->ref_sta.ah);
        }
        break;

    case 31:
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (n = 0; n < rtcm->glonass_ranges.nentries; n++) {
            const struct glonass_rangesat_t *rsp = &rtcm->glonass_ranges.sat[n];
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"udre\":%u,\"change\":%s,"
                           "\"tod\":%u,\"prc\":%0.3f,\"rrc\":%0.3f},",
                           rsp->ident,
                           rsp->udre,
                           JSON_BOOL(rsp->change),
                           rsp->tod,
                           rsp->prc, rsp->rrc);
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    default:
        (void)strlcat(buf, "\"data\":[", buflen);
        for (n = 0; n < rtcm->length; n++)
            str_appendf(buf, buflen, "\"0x%08x\",", rtcm->words[n]);
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;
    }

    str_rstrip_char(buf, ',');
    (void)strlcat(buf, "}\r\n", buflen);
}
#endif /* defined(RTCM104V2_ENABLE) */

#if defined(RTCM104V3_ENABLE)
void json_rtcm3_dump(const struct rtcm3_t *rtcm,
                     const char *device,
                     char buf[], size_t buflen)
/* dump the contents of a parsed RTCM104v3 message as JSON */
{
    char buf1[JSON_VAL_MAX * 2 + 1];
    unsigned short i;
    unsigned int n;

    (void)snprintf(buf, buflen, "{\"class\":\"RTCM3\",");
    if (device != NULL && device[0] != '\0')
        str_appendf(buf, buflen, "\"device\":\"%s\",", device);
    str_appendf(buf, buflen, "\"type\":%u,", rtcm->type);
    str_appendf(buf, buflen, "\"length\":%u,", rtcm->length);

#define CODE(x) (unsigned int)(x)
#define INT(x) (unsigned int)(x)
    switch (rtcm->type) {
    case 1001:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1001.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1001.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1001.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1001.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1001.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1001.header.satcount; i++) {
#define R1001 rtcm->rtcmtypes.rtcm3_1001.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u},",
                           R1001.ident,
                           CODE(R1001.L1.indicator),
                           R1001.L1.pseudorange,
                           R1001.L1.rangediff,
                           INT(R1001.L1.locktime));
#undef R1001
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1002:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1002.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1002.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1002.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1002.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1002.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1002.header.satcount; i++) {
#define R1002 rtcm->rtcmtypes.rtcm3_1002.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u,\"amb\":%u,"
                           "\"CNR\":%.2f},",
                           R1002.ident,
                           CODE(R1002.L1.indicator),
                           R1002.L1.pseudorange,
                           R1002.L1.rangediff,
                           INT(R1002.L1.locktime),
                           INT(R1002.L1.ambiguity),
                           R1002.L1.CNR);
#undef R1002
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1003:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1003.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1003.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1003.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1003.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1003.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1003.header.satcount; i++) {
#define R1003 rtcm->rtcmtypes.rtcm3_1003.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,"
                           "\"L1\":{\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u},"
                           "\"L2\":{\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u},"
                           "},",
                           R1003.ident,
                           CODE(R1003.L1.indicator),
                           R1003.L1.pseudorange,
                           R1003.L1.rangediff,
                           INT(R1003.L1.locktime),
                           CODE(R1003.L2.indicator),
                           R1003.L2.pseudorange,
                           R1003.L2.rangediff,
                           INT(R1003.L2.locktime));
#undef R1003
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1004:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1004.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1004.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1004.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1004.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1004.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1004.header.satcount; i++) {
#define R1004 rtcm->rtcmtypes.rtcm3_1004.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,"
                           "\"L1\":{\"ind\":%u,\"prange\":%0.2f,"
                           "\"delta\":%.4f,\"lockt\":%u,"
                           "\"amb\":%u,\"CNR\":%.2f},"
                           "\"L2\":{\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u,"
                           "\"CNR\":%.2f}"
                           "},",
                           R1004.ident,
                           CODE(R1004.L1.indicator),
                           R1004.L1.pseudorange,
                           R1004.L1.rangediff,
                           INT(R1004.L1.locktime),
                           INT(R1004.L1.ambiguity),
                           R1004.L1.CNR,
                           CODE(R1004.L2.indicator),
                           R1004.L2.pseudorange,
                           R1004.L2.rangediff,
                           INT(R1004.L2.locktime),
                           R1004.L2.CNR);
#undef R1004
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1005:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"system\":[",
                       rtcm->rtcmtypes.rtcm3_1005.station_id);
        if ((rtcm->rtcmtypes.rtcm3_1005.system & 0x04)!=0)
            (void)strlcat(buf, "\"GPS\",", buflen);
        if ((rtcm->rtcmtypes.rtcm3_1005.system & 0x02)!=0)
            (void)strlcat(buf, "\"GLONASS\",", buflen);
        if ((rtcm->rtcmtypes.rtcm3_1005.system & 0x01)!=0)
            (void)strlcat(buf, "\"GALILEO\",", buflen);
        str_rstrip_char(buf, ',');
        str_appendf(buf, buflen,
                       "],\"refstation\":%s,\"sro\":%s,"
                       "\"x\":%.4f,\"y\":%.4f,\"z\":%.4f,",
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1005.reference_station),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1005.single_receiver),
                       rtcm->rtcmtypes.rtcm3_1005.ecef_x,
                       rtcm->rtcmtypes.rtcm3_1005.ecef_y,
                       rtcm->rtcmtypes.rtcm3_1005.ecef_z);
        break;

    case 1006:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"system\":[",
                       rtcm->rtcmtypes.rtcm3_1006.station_id);
        if ((rtcm->rtcmtypes.rtcm3_1006.system & 0x04)!=0)
            (void)strlcat(buf, "\"GPS\",", buflen);
        if ((rtcm->rtcmtypes.rtcm3_1006.system & 0x02)!=0)
            (void)strlcat(buf, "\"GLONASS\",", buflen);
        if ((rtcm->rtcmtypes.rtcm3_1006.system & 0x01)!=0)
            (void)strlcat(buf, "\"GALILEO\",", buflen);
        str_rstrip_char(buf, ',');
        str_appendf(buf, buflen,
                       "],\"refstation\":%s,\"sro\":%s,"
                       "\"x\":%.4f,\"y\":%.4f,\"z\":%.4f,",
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1006.reference_station),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1006.single_receiver),
                       rtcm->rtcmtypes.rtcm3_1006.ecef_x,
                       rtcm->rtcmtypes.rtcm3_1006.ecef_y,
                       rtcm->rtcmtypes.rtcm3_1006.ecef_z);
        str_appendf(buf, buflen,
                       "\"h\":%.4f,",
                       rtcm->rtcmtypes.rtcm3_1006.height);
        break;

    case 1007:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"desc\":\"%s\",\"setup_id\":%u",
                       rtcm->rtcmtypes.rtcm3_1007.station_id,
                       rtcm->rtcmtypes.rtcm3_1007.descriptor,
                       rtcm->rtcmtypes.rtcm3_1007.setup_id);
        break;

    case 1008:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"desc\":\"%s\","
                       "\"setup_id\":%u,\"serial\":\"%s\"",
                       rtcm->rtcmtypes.rtcm3_1008.station_id,
                       rtcm->rtcmtypes.rtcm3_1008.descriptor,
                       INT(rtcm->rtcmtypes.rtcm3_1008.setup_id),
                       rtcm->rtcmtypes.rtcm3_1008.serial);
        break;

    case 1009:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%lld,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\","
                       "\"satcount\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1009.header.station_id,
                       (long long)rtcm->rtcmtypes.rtcm3_1009.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1009.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1009.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1009.header.interval,
                       rtcm->rtcmtypes.rtcm3_1009.header.satcount);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1009.header.satcount; i++) {
#define R1009 rtcm->rtcmtypes.rtcm3_1009.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"ind\":%u,\"channel\":%u,"
                           "\"prange\":%.2f,\"delta\":%.4f,\"lockt\":%u},",
                           R1009.ident,
                           CODE(R1009.L1.indicator),
                           R1009.L1.channel,
                           R1009.L1.pseudorange,
                           R1009.L1.rangediff,
                           INT(R1009.L1.locktime));
#undef R1009
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1010:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1010.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1010.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1010.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1010.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1010.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1010.header.satcount; i++) {
#define R1010 rtcm->rtcmtypes.rtcm3_1010.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"ind\":%u,\"channel\":%u,"
                           "\"prange\":%.2f,\"delta\":%.4f,\"lockt\":%u,"
                           "\"amb\":%u,\"CNR\":%.2f},",
                           R1010.ident,
                           CODE(R1010.L1.indicator),
                           R1010.L1.channel,
                           R1010.L1.pseudorange,
                           R1010.L1.rangediff,
                           INT(R1010.L1.locktime),
                           INT(R1010.L1.ambiguity),
                           R1010.L1.CNR);
#undef R1010
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1011:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1011.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1011.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1011.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1011.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1011.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1011.header.satcount; i++) {
#define R1011 rtcm->rtcmtypes.rtcm3_1011.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"channel\":%u,"
                           "\"L1\":{\"ind\":%u,"
                           "\"prange\":%.2f,\"delta\":%.4f,\"lockt\":%u},"
                           "\"L2:{\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u}"
                           "}",
                           R1011.ident,R1011.L1.channel,
                           CODE(R1011.L1.indicator),
                           R1011.L1.pseudorange,
                           R1011.L1.rangediff,
                           INT(R1011.L1.locktime),
                           CODE(R1011.L2.indicator),
                           R1011.L2.pseudorange,
                           R1011.L2.rangediff,
                           INT(R1011.L2.locktime));
#undef R1011
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1012:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"tow\":%d,\"sync\":\"%s\","
                       "\"smoothing\":\"%s\",\"interval\":\"%u\",",
                       rtcm->rtcmtypes.rtcm3_1012.header.station_id,
                       (int)rtcm->rtcmtypes.rtcm3_1012.header.tow,
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1012.header.sync),
                       JSON_BOOL(rtcm->rtcmtypes.rtcm3_1012.header.smoothing),
                       rtcm->rtcmtypes.rtcm3_1012.header.interval);
        (void)strlcat(buf, "\"satellites\":[", buflen);
        for (i = 0; i < rtcm->rtcmtypes.rtcm3_1012.header.satcount; i++) {
#define R1012 rtcm->rtcmtypes.rtcm3_1012.rtk_data[i]
            str_appendf(buf, buflen,
                           "{\"ident\":%u,\"channel\":%u,"
                           "\"L1\":{\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u,\"amb\":%u,"
                           "\"CNR\":%.2f},"
                           "\"L2\":{\"ind\":%u,\"prange\":%.2f,"
                           "\"delta\":%.4f,\"lockt\":%u,"
                           "\"CNR\":%.2f}"
                           "},",
                           R1012.ident,
                           R1012.L1.channel,
                           CODE(R1012.L1.indicator),
                           R1012.L1.pseudorange,
                           R1012.L1.rangediff,
                           INT(R1012.L1.locktime),
                           INT(R1012.L1.ambiguity),
                           R1012.L1.CNR,
                           CODE(R1012.L2.indicator),
                           R1012.L2.pseudorange,
                           R1012.L2.rangediff,
                           INT(R1012.L2.locktime),
                           R1012.L2.CNR);
#undef R1012
        }
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;

    case 1013:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"mjd\":%u,\"sec\":%u,"
                       "\"leapsecs\":%u,",
                       rtcm->rtcmtypes.rtcm3_1013.station_id,
                       rtcm->rtcmtypes.rtcm3_1013.mjd,
                       rtcm->rtcmtypes.rtcm3_1013.sod,
                       INT(rtcm->rtcmtypes.rtcm3_1013.leapsecs));
        for (i = 0; i < (unsigned short)rtcm->rtcmtypes.rtcm3_1013.ncount; i++)
            str_appendf(buf, buflen,
                           "{\"id\":%u,\"sync\":\"%s\",\"interval\":%u}",
                           rtcm->rtcmtypes.rtcm3_1013.announcements[i].id,
                           JSON_BOOL(rtcm->rtcmtypes.rtcm3_1013.
                                announcements[i].sync),
                           rtcm->rtcmtypes.rtcm3_1013.
                           announcements[i].interval);
        break;

    case 1014:
        str_appendf(buf, buflen,
                       "\"netid\":%u,\"subnetid\":%u,\"statcount\":%u"
                       "\"master\":%u,\"aux\":%u,\"lat\":%f,\"lon\":%f,"
                       "\"alt\":%f,",
                       rtcm->rtcmtypes.rtcm3_1014.network_id,
                       rtcm->rtcmtypes.rtcm3_1014.subnetwork_id,
                       rtcm->rtcmtypes.rtcm3_1014.stationcount,
                       rtcm->rtcmtypes.rtcm3_1014.master_id,
                       rtcm->rtcmtypes.rtcm3_1014.aux_id,
                       rtcm->rtcmtypes.rtcm3_1014.d_lat,
                       rtcm->rtcmtypes.rtcm3_1014.d_lon,
                       rtcm->rtcmtypes.rtcm3_1014.d_alt);
        break;

    case 1015:
        break;

    case 1016:
        break;

    case 1017:
        break;

    case 1018:
        break;

    case 1019:
        break;

    case 1020:
        break;

    case 1029:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"mjd\":%u,\"sec\":%u,"
                       "\"len\":%zd,\"units\":%zd,\"msg\":\"%s\",",
                       rtcm->rtcmtypes.rtcm3_1029.station_id,
                       rtcm->rtcmtypes.rtcm3_1029.mjd,
                       rtcm->rtcmtypes.rtcm3_1029.sod,
                       rtcm->rtcmtypes.rtcm3_1029.len,
                       rtcm->rtcmtypes.rtcm3_1029.unicode_units,
                       json_stringify(buf1, sizeof(buf1),
                                      (char *)rtcm->rtcmtypes.rtcm3_1029.text));
        break;

    case 1033:
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"desc\":\"%s\","
                       "\"setup_id\":%u,\"serial\":\"%s\","
                       "\"receiver\":\"%s\",\"firmware\":\"%s\"",
                       rtcm->rtcmtypes.rtcm3_1033.station_id,
                       rtcm->rtcmtypes.rtcm3_1033.descriptor,
                       INT(rtcm->rtcmtypes.rtcm3_1033.setup_id),
                       rtcm->rtcmtypes.rtcm3_1033.serial,
                       rtcm->rtcmtypes.rtcm3_1033.receiver,
                       rtcm->rtcmtypes.rtcm3_1033.firmware);
        break;

    case 1230:
        // bias_indicator is undocumented...
        str_appendf(buf, buflen,
                       "\"station_id\":%u,\"ind\":\"%u\"",
                       rtcm->rtcmtypes.rtcm3_1230.station_id,
                       rtcm->rtcmtypes.rtcm3_1230.bias_indicator);
        // actual mask order is undocumented...
        if (1 & rtcm->rtcmtypes.rtcm3_1230.signals_mask) {
            str_appendf(buf, buflen, ",\"l1_ca\":%d",
            rtcm->rtcmtypes.rtcm3_1230.l1_ca_bias);
        }
        if (2 & rtcm->rtcmtypes.rtcm3_1230.signals_mask) {
            str_appendf(buf, buflen, ",\"l1_p\":%d",
            rtcm->rtcmtypes.rtcm3_1230.l1_p_bias);
        }
        if (4 & rtcm->rtcmtypes.rtcm3_1230.signals_mask) {
            str_appendf(buf, buflen, ",\"l2_ca\":%d",
            rtcm->rtcmtypes.rtcm3_1230.l2_ca_bias);
        }
        if (8 & rtcm->rtcmtypes.rtcm3_1230.signals_mask) {
            str_appendf(buf, buflen, ",\"l2_p\":%d",
            rtcm->rtcmtypes.rtcm3_1230.l2_p_bias);
        }
        break;

    default:
        (void)strlcat(buf, "\"data\":[", buflen);
        for (n = 0; n < rtcm->length; n++)
            str_appendf(buf, buflen,
                        "\"0x%02x\",",(unsigned int)rtcm->rtcmtypes.data[n]);
        str_rstrip_char(buf, ',');
        (void)strlcat(buf, "]", buflen);
        break;
    }

    str_rstrip_char(buf, ',');
    (void)strlcat(buf, "}\r\n", buflen);
#undef CODE
#undef INT
}
#endif /* defined(RTCM104V3_ENABLE) */

#if defined(AIVDM_ENABLE)
void json_aivdm_dump(const struct ais_t *ais,
                     const char *device, bool scaled,
                     char *buf, size_t buflen)
{
    char buf1[JSON_VAL_MAX * 2 + 1];
    char buf2[JSON_VAL_MAX * 2 + 1];
    char buf3[JSON_VAL_MAX * 2 + 1];
    char scratchbuf[MAX_PACKET_LENGTH*2+1];
    int i;

    static char *nav_legends[] = {
        "Under way using engine",
        "At anchor",
        "Not under command",
        "Restricted manoeuverability",
        "Constrained by her draught",
        "Moored",
        "Aground",
        "Engaged in fishing",
        "Under way sailing",
        "Reserved for HSC",
        "Reserved for WIG",
        "Reserved",
        "Reserved",
        "Reserved",
        "Reserved",
        "Not defined",
    };

    static char *epfd_legends[] = {
        "Undefined",
        "GPS",
        "GLONASS",
        "Combined GPS/GLONASS",
        "Loran-C",
        "Chayka",
        "Integrated navigation system",
        "Surveyed",
        "Galileo",
    };

#define EPFD_DISPLAY(n) (((n) < (unsigned int)NITEMS(epfd_legends)) ? epfd_legends[n] : "INVALID EPFD")

    static char *ship_type_legends[100] = {
        "Not available",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Wing in ground (WIG) - all ships of this type",
        "Wing in ground (WIG) - Hazardous category A",
        "Wing in ground (WIG) - Hazardous category B",
        "Wing in ground (WIG) - Hazardous category C",
        "Wing in ground (WIG) - Hazardous category D",
        "Wing in ground (WIG) - Reserved for future use",
        "Wing in ground (WIG) - Reserved for future use",
        "Wing in ground (WIG) - Reserved for future use",
        "Wing in ground (WIG) - Reserved for future use",
        "Wing in ground (WIG) - Reserved for future use",
        "Fishing",
        "Towing",
        "Towing: length exceeds 200m or breadth exceeds 25m",
        "Dredging or underwater ops",
        "Diving ops",
        "Military ops",
        "Sailing",
        "Pleasure Craft",
        "Reserved",
        "Reserved",
        "High speed craft (HSC) - all ships of this type",
        "High speed craft (HSC) - Hazardous category A",
        "High speed craft (HSC) - Hazardous category B",
        "High speed craft (HSC) - Hazardous category C",
        "High speed craft (HSC) - Hazardous category D",
        "High speed craft (HSC) - Reserved for future use",
        "High speed craft (HSC) - Reserved for future use",
        "High speed craft (HSC) - Reserved for future use",
        "High speed craft (HSC) - Reserved for future use",
        "High speed craft (HSC) - No additional information",
        "Pilot Vessel",
        "Search and Rescue vessel",
        "Tug",
        "Port Tender",
        "Anti-pollution equipment",
        "Law Enforcement",
        "Spare - Local Vessel",
        "Spare - Local Vessel",
        "Medical Transport",
        "Ship according to RR Resolution No. 18",
        "Passenger - all ships of this type",
        "Passenger - Hazardous category A",
        "Passenger - Hazardous category B",
        "Passenger - Hazardous category C",
        "Passenger - Hazardous category D",
        "Passenger - Reserved for future use",
        "Passenger - Reserved for future use",
        "Passenger - Reserved for future use",
        "Passenger - Reserved for future use",
        "Passenger - No additional information",
        "Cargo - all ships of this type",
        "Cargo - Hazardous category A",
        "Cargo - Hazardous category B",
        "Cargo - Hazardous category C",
        "Cargo - Hazardous category D",
        "Cargo - Reserved for future use",
        "Cargo - Reserved for future use",
        "Cargo - Reserved for future use",
        "Cargo - Reserved for future use",
        "Cargo - No additional information",
        "Tanker - all ships of this type",
        "Tanker - Hazardous category A",
        "Tanker - Hazardous category B",
        "Tanker - Hazardous category C",
        "Tanker - Hazardous category D",
        "Tanker - Reserved for future use",
        "Tanker - Reserved for future use",
        "Tanker - Reserved for future use",
        "Tanker - Reserved for future use",
        "Tanker - No additional information",
        // 90
        "Other Type - all ships of this type",
        "Other Type - Hazardous category A",
        "Other Type - Hazardous category B",
        "Other Type - Hazardous category C",
        "Other Type - Hazardous category D",
        "Other Type - Reserved for future use",
        "Other Type - Reserved for future use",
        "Other Type - Reserved for future use",
        "Other Type - Reserved for future use",
        "Other Type - no additional information",
    };

#define SHIPTYPE_DISPLAY(n) (((n) < \
                             (unsigned int)NITEMS(ship_type_legends)) ? \
                             ship_type_legends[n] : "INVALID SHIP TYPE")

    static const char *station_type_legends[] = {
        "All types of mobiles",
        "Reserved for future use",
        "All types of Class B mobile stations",
        "SAR airborne mobile station",
        "Aid to Navigation station",
        "Class B shipborne mobile station",
        "Regional use and inland waterways",
        "Regional use and inland waterways",
        "Regional use and inland waterways",
        "Regional use and inland waterways",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
        "Reserved for future use",
    };

#define STATIONTYPE_DISPLAY(n) (((n) < (unsigned int)NITEMS(station_type_legends)) ? station_type_legends[n] : "INVALID STATION TYPE")

    static const char *navaid_type_legends[] = {
        "Unspecified",
        "Reference point",
        "RACON",
        "Fixed offshore structure",
        "Spare, Reserved for future use.",
        "Light, without sectors",
        "Light, with sectors",
        "Leading Light Front",
        "Leading Light Rear",
        "Beacon, Cardinal N",
        "Beacon, Cardinal E",
        "Beacon, Cardinal S",
        "Beacon, Cardinal W",
        "Beacon, Port hand",
        "Beacon, Starboard hand",
        "Beacon, Preferred Channel port hand",
        "Beacon, Preferred Channel starboard hand",
        "Beacon, Isolated danger",
        "Beacon, Safe water",
        "Beacon, Special mark",
        "Cardinal Mark N",
        "Cardinal Mark E",
        "Cardinal Mark S",
        "Cardinal Mark W",
        "Port hand Mark",
        "Starboard hand Mark",
        "Preferred Channel Port hand",
        "Preferred Channel Starboard hand",
        "Isolated danger",
        "Safe Water",
        "Special Mark",
        "Light Vessel / LANBY / Rigs",
    };

#define NAVAIDTYPE_DISPLAY(n) (((n) < (unsigned int)NITEMS(navaid_type_legends)) ? navaid_type_legends[n] : "INVALID NAVAID TYPE")

    // cppcheck-suppress variableScope
    static const char *signal_legends[] = {
        "N/A",
        "Serious emergency – stop or divert according to instructions.",
        "Vessels shall not proceed.",
        "Vessels may proceed. One way traffic.",
        "Vessels may proceed. Two way traffic.",
        "Vessels shall proceed on specific orders only.",
        "Vessels in main channel shall not proceed.",
        "Vessels in main channel shall proceed on specific orders only.",
        "Vessels in main channel shall proceed on specific orders only.",
        "I = \"in-bound\" only acceptable.",
        "O = \"out-bound\" only acceptable.",
        "F = both \"in- and out-bound\" acceptable.",
        "XI = Code will shift to \"I\" in due time.",
        "XO = Code will shift to \"O\" in due time.",
        "X = Vessels shall proceed only on direction.",
    };

#define SIGNAL_DISPLAY(n) (((n) < (unsigned int)NITEMS(signal_legends)) ? signal_legends[n] : "INVALID SIGNAL TYPE")

    static const char *route_type[32] = {
        "Undefined (default)",
        "Mandatory",
        "Recommended",
        "Alternative",
        "Recommended route through ice",
        "Ship route plan",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Reserved for future use.",
        "Cancel route identified by message linkage",
    };

    // cppcheck-suppress variableScope
    static const char *idtypes[] = {
        "mmsi",
        "imo",
        "callsign",
        "other",
    };

    // cppcheck-suppress variableScope
    static const char *racon_status[] = {
        "No RACON installed",
        "RACON not monitored",
        "RACON operational",
        "RACON ERROR"
    };

    // cppcheck-suppress variableScope
    static const char *light_status[] = {
        "No light or no monitoring",
        "Light ON",
        "Light OFF",
        "Light ERROR"
    };

    // cppcheck-suppress variableScope
    static const char *rta_status[] = {
        "Operational",
        "Limited operation",
        "Out of order",
        "N/A",
    };

    // cppcheck-suppress variableScope
    const char *position_types[8] = {
        "Not available",
        "Port-side to",
        "Starboard-side to",
        "Mediterranean (end-on) mooring",
        "Mooring buoy",
        "Anchorage",
        "Reserved for future use",
        "Reserved for future use",
    };

    (void)snprintf(buf, buflen, "{\"class\":\"AIS\"");
    if (device != NULL && device[0] != '\0')
        str_appendf(buf, buflen, ",\"device\":\"%s\"", device);
    str_appendf(buf, buflen,
                   ",\"type\":%u,\"repeat\":%u,\"mmsi\":%u,\"scaled\":%s",
                   ais->type, ais->repeat, ais->mmsi, JSON_BOOL(scaled));
    switch (ais->type) {
    case 1:                     /* Position Report */
    case 2:
    case 3:
        if (scaled) {
            char turnlegend[20];
            char speedlegend[20];

            /*
             * Express turn as nan if not available,
             * "fastleft"/"fastright" for fast turns.
             */
            if (ais->type1.turn == -128)
                (void)strlcpy(turnlegend, "\"nan\"", sizeof(turnlegend));
            else if (ais->type1.turn == -127)
                (void)strlcpy(turnlegend, "\"fastleft\"", sizeof(turnlegend));
            else if (ais->type1.turn == 127)
                (void)strlcpy(turnlegend, "\"fastright\"",
                              sizeof(turnlegend));
            else {
                double rot1 = ais->type1.turn / 4.733;
                (void)snprintf(turnlegend, sizeof(turnlegend),
                               "%.0f", rot1 * rot1);
            }

            /*
             * Express speed as nan if not available,
             * "fast" for fast movers.
             */
            if (ais->type1.speed == AIS_SPEED_NOT_AVAILABLE)
                (void)strlcpy(speedlegend, "\"nan\"", sizeof(speedlegend));
            else if (ais->type1.speed == AIS_SPEED_FAST_MOVER)
                (void)strlcpy(speedlegend, "\"fast\"", sizeof(speedlegend));
            else
                (void)snprintf(speedlegend, sizeof(speedlegend),
                               "%.1f", ais->type1.speed / 10.0);

            str_appendf(buf, buflen,
                           ",\"status\":%u,\"status_text\":\"%s\","
                           "\"turn\":%s,\"speed\":%s,"
                           "\"accuracy\":%s,\"lon\":%.6f,\"lat\":%.6f,"
                           "\"course\":%.1f,\"heading\":%u,\"second\":%u,"
                           "\"maneuver\":%u,\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type1.status,
                           nav_legends[ais->type1.status],
                           turnlegend,
                           speedlegend,
                           JSON_BOOL(ais->type1.accuracy),
                           ais->type1.lon / AIS_LATLON_DIV,
                           ais->type1.lat / AIS_LATLON_DIV,
                           ais->type1.course / 10.0,
                           ais->type1.heading,
                           ais->type1.second,
                           ais->type1.maneuver,
                           JSON_BOOL(ais->type1.raim), ais->type1.radio);
        } else {
            str_appendf(buf, buflen,
                           ",\"status\":%u,\"status_text\":\"%s\","
                           "\"turn\":%d,\"speed\":%u,"
                           "\"accuracy\":%s,\"lon\":%d,\"lat\":%d,"
                           "\"course\":%u,\"heading\":%u,\"second\":%u,"
                           "\"maneuver\":%u,\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type1.status,
                           nav_legends[ais->type1.status],
                           ais->type1.turn,
                           ais->type1.speed,
                           JSON_BOOL(ais->type1.accuracy),
                           ais->type1.lon,
                           ais->type1.lat,
                           ais->type1.course,
                           ais->type1.heading,
                           ais->type1.second,
                           ais->type1.maneuver,
                           JSON_BOOL(ais->type1.raim), ais->type1.radio);
        }
        break;
    case 4:                     /* Base Station Report */
    case 11:                    /* UTC/Date Response */
        /* some fields have beem merged to an ISO8601 date */
        if (scaled) {
            // The use of %u instead of %04u for the year is to allow
            // out-of-band year values.
            str_appendf(buf, buflen,
                           ",\"timestamp\":\"%04u-%02u-%02uT%02u:%02u:%02uZ\","
                           "\"accuracy\":%s,\"lon\":%.6f,\"lat\":%.6f,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type4.year,
                           ais->type4.month,
                           ais->type4.day,
                           ais->type4.hour,
                           ais->type4.minute,
                           ais->type4.second,
                           JSON_BOOL(ais->type4.accuracy),
                           ais->type4.lon / AIS_LATLON_DIV,
                           ais->type4.lat / AIS_LATLON_DIV,
                           ais->type4.epfd,
                           EPFD_DISPLAY(ais->type4.epfd),
                           JSON_BOOL(ais->type4.raim), ais->type4.radio);
        } else {
            str_appendf(buf, buflen,
                           ",\"timestamp\":\"%04u-%02u-%02uT%02u:%02u:%02uZ\","
                           "\"accuracy\":%s,\"lon\":%d,\"lat\":%d,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type4.year,
                           ais->type4.month,
                           ais->type4.day,
                           ais->type4.hour,
                           ais->type4.minute,
                           ais->type4.second,
                           JSON_BOOL(ais->type4.accuracy),
                           ais->type4.lon,
                           ais->type4.lat,
                           ais->type4.epfd,
                           EPFD_DISPLAY(ais->type4.epfd),
                           JSON_BOOL(ais->type4.raim), ais->type4.radio);
        }
        break;
    case 5:                     /* Ship static and voyage related data */
        /* some fields have beem merged to an ISO8601 partial date */
        if (scaled) {
            /* *INDENT-OFF* */
            str_appendf(buf, buflen,
                           ",\"imo\":%u,\"ais_version\":%u,\"callsign\":\"%s\","
                           "\"shipname\":\"%s\","
                           "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"to_bow\":%u,\"to_stern\":%u,\"to_port\":%u,"
                           "\"to_starboard\":%u,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"eta\":\"%02u-%02uT%02u:%02uZ\","
                           "\"draught\":%.1f,\"destination\":\"%s\","
                           "\"dte\":%u}\r\n",
                           ais->type5.imo,
                           ais->type5.ais_version,
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type5.callsign),
                           json_stringify(buf2, sizeof(buf2),
                                          ais->type5.shipname),
                           ais->type5.shiptype,
                           SHIPTYPE_DISPLAY(ais->type5.shiptype),
                           ais->type5.to_bow, ais->type5.to_stern,
                           ais->type5.to_port, ais->type5.to_starboard,
                           ais->type5.epfd,
                           EPFD_DISPLAY(ais->type5.epfd),
                           ais->type5.month,
                           ais->type5.day,
                           ais->type5.hour, ais->type5.minute,
                           ais->type5.draught / 10.0,
                           json_stringify(buf3, sizeof(buf3),
                                          ais->type5.destination),
                           ais->type5.dte);
            /* *INDENT-ON* */
        } else {
            str_appendf(buf, buflen,
                           ",\"imo\":%u,\"ais_version\":%u,\"callsign\":\"%s\","
                           "\"shipname\":\"%s\","
                           "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"to_bow\":%u,\"to_stern\":%u,\"to_port\":%u,"
                           "\"to_starboard\":%u,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"eta\":\"%02u-%02uT%02u:%02uZ\","
                           "\"draught\":%u,\"destination\":\"%s\","
                           "\"dte\":%u}\r\n",
                           ais->type5.imo,
                           ais->type5.ais_version,
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type5.callsign),
                           json_stringify(buf2, sizeof(buf2),
                                          ais->type5.shipname),
                           ais->type5.shiptype,
                           SHIPTYPE_DISPLAY(ais->type5.shiptype),
                           ais->type5.to_bow,
                           ais->type5.to_stern,
                           ais->type5.to_port,
                           ais->type5.to_starboard,
                           ais->type5.epfd,
                           EPFD_DISPLAY(ais->type5.epfd),
                           ais->type5.month,
                           ais->type5.day,
                           ais->type5.hour,
                           ais->type5.minute,
                           ais->type5.draught,
                           json_stringify(buf3, sizeof(buf3),
                                          ais->type5.destination),
                           ais->type5.dte);
        }
        break;
    case 6:                     /* Binary Message */
        str_appendf(buf, buflen,
                       ",\"seqno\":%u,\"dest_mmsi\":%u,"
                       "\"retransmit\":%s,\"dac\":%u,\"fid\":%u",
                       ais->type6.seqno,
                       ais->type6.dest_mmsi,
                       JSON_BOOL(ais->type6.retransmit),
                       ais->type6.dac,
                       ais->type6.fid);
        if (!ais->type6.structured) {
            str_appendf(buf, buflen,
                           ",\"data\":\"%zd:%s\"}\r\n",
                           ais->type6.bitcount,
                           json_stringify(buf1, sizeof(buf1),
                              gpsd_hexdump(
                                  scratchbuf, sizeof(scratchbuf),
                                  (char *)ais->type6.bitdata,
                                  BITS_TO_BYTES(ais->type6.bitcount))));
            break;
        }
        if (ais->type6.dac == 200) {
            switch (ais->type6.fid) {
            case 21:
                str_appendf(buf, buflen,
                    ",\"country\":\"%s\",\"locode\":\"%s\","
                    "\"section\":\"%s\",\"terminal\":\"%s\","
                    "\"hectometre\":\"%s\",\"eta\":\"%u-%uT%u:%u\","
                    "\"tugs\":%u,\"airdraught\":%u}\r\n",
                    ais->type6.dac200fid21.country,
                    ais->type6.dac200fid21.locode,
                    ais->type6.dac200fid21.section,
                    ais->type6.dac200fid21.terminal,
                    ais->type6.dac200fid21.hectometre,
                    ais->type6.dac200fid21.month,
                    ais->type6.dac200fid21.day,
                    ais->type6.dac200fid21.hour,
                    ais->type6.dac200fid21.minute,
                    ais->type6.dac200fid21.tugs,
                    ais->type6.dac200fid21.airdraught);
                break;
            case 22:
                str_appendf(buf, buflen,
                               ",\"country\":\"%s\",\"locode\":\"%s\","
                               "\"section\":\"%s\","
                               "\"terminal\":\"%s\",\"hectometre\":\"%s\","
                               "\"eta\":\"%u-%uT%u:%u\","
                               "\"status\":%u,\"status_text\":\"%s\"}\r\n",
                               ais->type6.dac200fid22.country,
                               ais->type6.dac200fid22.locode,
                               ais->type6.dac200fid22.section,
                               ais->type6.dac200fid22.terminal,
                               ais->type6.dac200fid22.hectometre,
                               ais->type6.dac200fid22.month,
                               ais->type6.dac200fid22.day,
                               ais->type6.dac200fid22.hour,
                               ais->type6.dac200fid22.minute,
                               ais->type6.dac200fid22.status,
                               rta_status[ais->type6.dac200fid22.status]);
                break;
            case 55:
                str_appendf(buf, buflen,
                    ",\"crew\":%u,\"passengers\":%u,\"personnel\":%u}\r\n",

                    ais->type6.dac200fid55.crew,
                    ais->type6.dac200fid55.passengers,
                    ais->type6.dac200fid55.personnel);
                break;
            }
        }
        else if (ais->type6.dac == 235 || ais->type6.dac == 250) {
            switch (ais->type6.fid) {
            case 10:    /* GLA - AtoN monitoring data */
                str_appendf(buf, buflen,
                               ",\"off_pos\":%s,\"alarm\":%s,"
                               "\"stat_ext\":%u",
                               JSON_BOOL(ais->type6.dac235fid10.off_pos),
                               JSON_BOOL(ais->type6.dac235fid10.alarm),
                               ais->type6.dac235fid10.stat_ext);
                if (scaled && ais->type6.dac235fid10.ana_int != 0)
                    str_appendf(buf, buflen,
                                   ",\"ana_int\":%.2f",
                                   ais->type6.dac235fid10.ana_int*0.05);
                else
                    str_appendf(buf, buflen,
                                   ",\"ana_int\":%u",
                                   ais->type6.dac235fid10.ana_int);
                if (scaled && ais->type6.dac235fid10.ana_ext1 != 0)
                    str_appendf(buf, buflen,
                                   ",\"ana_ext1\":%.2f",
                                   ais->type6.dac235fid10.ana_ext1*0.05);
                else
                    str_appendf(buf, buflen,
                                   ",\"ana_ext1\":%u",
                                   ais->type6.dac235fid10.ana_ext1);
                if (scaled && ais->type6.dac235fid10.ana_ext2 != 0)
                    str_appendf(buf, buflen,
                                   ",\"ana_ext2\":%.2f",
                                   ais->type6.dac235fid10.ana_ext2*0.05);
                else
                    str_appendf(buf, buflen,
                                   ",\"ana_ext2\":%u",
                                   ais->type6.dac235fid10.ana_ext2);
                str_appendf(buf, buflen,
                               ",\"racon\":%u,"
                               "\"racon_text\":\"%s\","
                               "\"light\":%u,"
                               "\"light_text\":\"%s\"",
                               ais->type6.dac235fid10.racon,
                               racon_status[ais->type6.dac235fid10.racon],
                               ais->type6.dac235fid10.light,
                               light_status[ais->type6.dac235fid10.light]);
                (void)strlcat(buf, "}\r\n", buflen);
                break;
            }
        }
        else if (ais->type6.dac == 1) {
            char buf4[JSON_VAL_MAX * 2 + 1];
            switch (ais->type6.fid) {
            case 12:    /* IMO236 -Dangerous cargo indication */
                /* some fields have beem merged to an ISO8601 partial date */
                str_appendf(buf, buflen,
                               ",\"lastport\":\"%s\","
                               "\"departure\":\"%02u-%02uT%02u:%02uZ\","
                               "\"nextport\":\"%s\","
                               "\"eta\":\"%02u-%02uT%02u:%02uZ\","
                               "\"dangerous\":\"%s\",\"imdcat\":\"%s\","
                               "\"unid\":%u,\"amount\":%u,\"unit\":%u}\r\n",
                               json_stringify(buf1, sizeof(buf1),
                                              ais->type6.dac1fid12.lastport),
                               ais->type6.dac1fid12.lmonth,
                               ais->type6.dac1fid12.lday,
                               ais->type6.dac1fid12.lhour,
                               ais->type6.dac1fid12.lminute,
                               json_stringify(buf2, sizeof(buf2),
                                              ais->type6.dac1fid12.nextport),
                               ais->type6.dac1fid12.nmonth,
                               ais->type6.dac1fid12.nday,
                               ais->type6.dac1fid12.nhour,
                               ais->type6.dac1fid12.nminute,
                               json_stringify(buf3, sizeof(buf3),
                                              ais->type6.dac1fid12.dangerous),
                               json_stringify(buf4, sizeof(buf4),
                                              ais->type6.dac1fid12.imdcat),
                               ais->type6.dac1fid12.unid,
                               ais->type6.dac1fid12.amount,
                               ais->type6.dac1fid12.unit);
                break;
            case 15: /* IMO236 - Extended Ship Static and Voyage Related Data */
                str_appendf(buf, buflen,
                    ",\"airdraught\":%u}\r\n",
                    ais->type6.dac1fid15.airdraught);
                break;
            case 16:    /* IMO236 - Number of persons on board */
                str_appendf(buf, buflen,
                           ",\"persons\":%u}\r\n",
                            ais->type6.dac1fid16.persons);
                break;
            case 18:    /* IMO289 - Clearance time to enter port */
                str_appendf(buf, buflen,
                               ",\"linkage\":%u,"
                               "\"arrival\":\"%02u-%02uT%02u:%02uZ\","
                               "\"portname\":\"%s\",\"destination\":\"%s\"",
                               ais->type6.dac1fid18.linkage,
                               ais->type6.dac1fid18.month,
                               ais->type6.dac1fid18.day,
                               ais->type6.dac1fid18.hour,
                               ais->type6.dac1fid18.minute,
                               json_stringify(buf1, sizeof(buf1),
                                              ais->type6.dac1fid18.portname),
                               json_stringify(buf2, sizeof(buf2),
                                              ais->type6.dac1fid18.destination));
                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"lon\":%.4f,\"lat\":%.4f}\r\n",
                                   ais->type6.dac1fid18.lon/AIS_LATLON3_DIV,
                                   ais->type6.dac1fid18.lat/AIS_LATLON3_DIV);
                else
                    str_appendf(buf, buflen,
                               ",\"lon\":%d,\"lat\":%d}\r\n",
                               ais->type6.dac1fid18.lon,
                               ais->type6.dac1fid18.lat);
                break;
            case 20:        /* IMO289 - Berthing Data */
                str_appendf(buf, buflen,
                               ",\"linkage\":%u,\"berth_length\":%u,"
                               "\"position\":%u,\"position_text\":\"%s\","
                               "\"arrival\":\"%u-%uT%u:%u\","
                               "\"availability\":%u,"
                               "\"agent\":%u,\"fuel\":%u,\"chandler\":%u,"
                               "\"stevedore\":%u,\"electrical\":%u,"
                               "\"water\":%u,\"customs\":%u,\"cartage\":%u,"
                               "\"crane\":%u,\"lift\":%u,\"medical\":%u,"
                               "\"navrepair\":%u,\"provisions\":%u,"
                               "\"shiprepair\":%u,\"surveyor\":%u,"
                               "\"steam\":%u,\"tugs\":%u,\"solidwaste\":%u,"
                               "\"liquidwaste\":%u,\"hazardouswaste\":%u,"
                               "\"ballast\":%u,\"additional\":%u,"
                               "\"regional1\":%u,\"regional2\":%u,"
                               "\"future1\":%u,\"future2\":%u,"
                               "\"berth_name\":\"%s\"",
                               ais->type6.dac1fid20.linkage,
                               ais->type6.dac1fid20.berth_length,
                               ais->type6.dac1fid20.position,
                               position_types[ais->type6.dac1fid20.position],
                               ais->type6.dac1fid20.month,
                               ais->type6.dac1fid20.day,
                               ais->type6.dac1fid20.hour,
                               ais->type6.dac1fid20.minute,
                               ais->type6.dac1fid20.availability,
                               ais->type6.dac1fid20.agent,
                               ais->type6.dac1fid20.fuel,
                               ais->type6.dac1fid20.chandler,
                               ais->type6.dac1fid20.stevedore,
                               ais->type6.dac1fid20.electrical,
                               ais->type6.dac1fid20.water,
                               ais->type6.dac1fid20.customs,
                               ais->type6.dac1fid20.cartage,
                               ais->type6.dac1fid20.crane,
                               ais->type6.dac1fid20.lift,
                               ais->type6.dac1fid20.medical,
                               ais->type6.dac1fid20.navrepair,
                               ais->type6.dac1fid20.provisions,
                               ais->type6.dac1fid20.shiprepair,
                               ais->type6.dac1fid20.surveyor,
                               ais->type6.dac1fid20.steam,
                               ais->type6.dac1fid20.tugs,
                               ais->type6.dac1fid20.solidwaste,
                               ais->type6.dac1fid20.liquidwaste,
                               ais->type6.dac1fid20.hazardouswaste,
                               ais->type6.dac1fid20.ballast,
                               ais->type6.dac1fid20.additional,
                               ais->type6.dac1fid20.regional1,
                               ais->type6.dac1fid20.regional2,
                               ais->type6.dac1fid20.future1,
                               ais->type6.dac1fid20.future2,
                               json_stringify(buf1, sizeof(buf1),
                                              ais->type6.dac1fid20.berth_name));
                if (scaled)
                    str_appendf(buf, buflen,
                               ",\"berth_lon\":%.4f,"
                               "\"berth_lat\":%.4f,"
                               "\"berth_depth\":%.1f}\r\n",
                               ais->type6.dac1fid20.berth_lon / AIS_LATLON3_DIV,
                               ais->type6.dac1fid20.berth_lat / AIS_LATLON3_DIV,
                               ais->type6.dac1fid20.berth_depth * 0.1);
                else
                    str_appendf(buf, buflen,
                               ",\"berth_lon\":%d,"
                               "\"berth_lat\":%d,"
                               "\"berth_depth\":%u}\r\n",
                               ais->type6.dac1fid20.berth_lon,
                               ais->type6.dac1fid20.berth_lat,
                               ais->type6.dac1fid20.berth_depth);
                break;
            case 23:    /* IMO289 - Area notice - addressed */
                break;
            case 25:    /* IMO289 - Dangerous cargo indication */
                str_appendf(buf, buflen,
                               ",\"unit\":%u,\"amount\":%u,\"cargos\":[",
                               ais->type6.dac1fid25.unit,
                               ais->type6.dac1fid25.amount);
                for (i = 0; i < (int)ais->type6.dac1fid25.ncargos; i++)
                    str_appendf(buf, buflen,
                                   "{\"code\":%u,\"subtype\":%u},",

                                   ais->type6.dac1fid25.cargos[i].code,
                                   ais->type6.dac1fid25.cargos[i].subtype);
                str_rstrip_char(buf, ',');
                (void)strlcat(buf, "]}\r\n", buflen);
                break;
            case 28:    /* IMO289 - Route info - addressed */
                str_appendf(buf, buflen,
                               ",\"linkage\":%u,\"sender\":%u,"
                               "\"rtype\":%u,"
                               "\"rtype_text\":\"%s\","
                               "\"start\":\"%02u-%02uT%02u:%02uZ\","
                               "\"duration\":%u,\"waypoints\":[",
                               ais->type6.dac1fid28.linkage,
                               ais->type6.dac1fid28.sender,
                               ais->type6.dac1fid28.rtype,
                               route_type[ais->type6.dac1fid28.rtype],
                               ais->type6.dac1fid28.month,
                               ais->type6.dac1fid28.day,
                               ais->type6.dac1fid28.hour,
                               ais->type6.dac1fid28.minute,
                               ais->type6.dac1fid28.duration);
                for (i = 0; i < ais->type6.dac1fid28.waycount; i++) {
                    if (scaled)
                        str_appendf(buf, buflen,
                            "{\"lon\":%.6f,\"lat\":%.6f},",
                            ais->type6.dac1fid28.waypoints[i].lon / AIS_LATLON4_DIV,
                            ais->type6.dac1fid28.waypoints[i].lat / AIS_LATLON4_DIV);
                    else
                        str_appendf(buf, buflen,
                            "{\"lon\":%d,\"lat\":%d},",
                            ais->type6.dac1fid28.waypoints[i].lon,
                            ais->type6.dac1fid28.waypoints[i].lat);
                }
                str_rstrip_char(buf, ',');
                (void)strlcat(buf, "]}\r\n", buflen);
                break;
            case 30:    /* IMO289 - Text description - addressed */
                str_appendf(buf, buflen,
                       ",\"linkage\":%u,\"text\":\"%s\"}\r\n",
                       ais->type6.dac1fid30.linkage,
                       json_stringify(buf1, sizeof(buf1),
                                      ais->type6.dac1fid30.text));
                break;
            case 14:    /* IMO236 - Tidal Window */
            case 32:    /* IMO289 - Tidal Window */
              str_appendf(buf, buflen,
                  ",\"month\":%u,\"day\":%u,\"tidals\":[",
                  ais->type6.dac1fid32.month,
                  ais->type6.dac1fid32.day);
              for (i = 0; i < ais->type6.dac1fid32.ntidals; i++) {
                  const struct tidal_t *tp =  &ais->type6.dac1fid32.tidals[i];
                  if (scaled)
                      str_appendf(buf, buflen,
                          "{\"lon\":%.4f,\"lat\":%.4f",
                          tp->lon / AIS_LATLON3_DIV,
                          tp->lat / AIS_LATLON3_DIV);
                  else
                      str_appendf(buf, buflen,
                          "{\"lon\":%d,\"lat\":%d",
                          tp->lon,
                          tp->lat);
                  str_appendf(buf, buflen,
                      ",\"from_hour\":%u,\"from_min\":%u,"
                      "\"to_hour\":%u,\"to_min\":%u,\"cdir\":%u",
                      tp->from_hour,
                      tp->from_min,
                      tp->to_hour,
                      tp->to_min,
                      tp->cdir);
                  if (scaled)
                      str_appendf(buf, buflen,
                          ",\"cspeed\":%.1f},",
                          tp->cspeed / 10.0);
                  else
                      str_appendf(buf, buflen,
                          ",\"cspeed\":%u},",
                          tp->cspeed);
              }
              str_rstrip_char(buf, ',');
              (void)strlcat(buf, "]}\r\n", buflen);
              break;
            }
        }
        break;
    case 7:                     /* Binary Acknowledge */
    case 13:                    /* Safety Related Acknowledge */
        str_appendf(buf, buflen,
                       ",\"mmsi1\":%u,\"mmsi2\":%u,\"mmsi3\":%u,"
                       "\"mmsi4\":%u}\r\n",
                       ais->type7.mmsi1,
                       ais->type7.mmsi2, ais->type7.mmsi3, ais->type7.mmsi4);
        break;
    case 8:                     /* Binary Broadcast Message */
        str_appendf(buf, buflen,
                   ",\"dac\":%u,\"fid\":%u",
                    ais->type8.dac, ais->type8.fid);
        if (!ais->type8.structured) {
            str_appendf(buf, buflen,
                           ",\"data\":\"%zd:%s\"}\r\n",
                           ais->type8.bitcount,
                           json_stringify(buf1, sizeof(buf1),
                              gpsd_hexdump(
                                  scratchbuf, sizeof(scratchbuf),
                                  (char *)ais->type8.bitdata,
                                  BITS_TO_BYTES(ais->type8.bitcount))));
            break;
        }
        if (ais->type8.dac == 1) {
            const char *trends[] = {
                "steady",
                "increasing",
                "decreasing",
                "N/A",
            };
            // WMO 306, Code table 4.201
            const char *preciptypes[] = {
                "reserved",
                "rain",
                "thunderstorm",
                "freezing rain",
                "mixed/ice",
                "snow",
                "reserved",
                "N/A",
            };
            const char *ice[] = {
                "no",
                "yes",
                "reserved",
                "N/A",
            };
            switch (ais->type8.fid) {
            case 11:        /* IMO236 - Meteorological/Hydrological data */
                /* some fields have been merged to an ISO8601 partial date */
                /* layout is almost identical to FID=31 from IMO289 */
                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"lat\":%.4f,\"lon\":%.4f",
                                   ais->type8.dac1fid11.lat / AIS_LATLON3_DIV,
                                   ais->type8.dac1fid11.lon / AIS_LATLON3_DIV);
                else
                    str_appendf(buf, buflen,
                                   ",\"lat\":%d,\"lon\":%d",
                                   ais->type8.dac1fid11.lat,
                                   ais->type8.dac1fid11.lon);
                str_appendf(buf, buflen,
                               ",\"timestamp\":\"%02uT%02u:%02uZ\","
                               "\"wspeed\":%u,\"wgust\":%u,\"wdir\":%u,"
                               "\"wgustdir\":%u,\"humidity\":%u",
                               ais->type8.dac1fid11.day,
                               ais->type8.dac1fid11.hour,
                               ais->type8.dac1fid11.minute,
                               ais->type8.dac1fid11.wspeed,
                               ais->type8.dac1fid11.wgust,
                               ais->type8.dac1fid11.wdir,
                               ais->type8.dac1fid11.wgustdir,
                               ais->type8.dac1fid11.humidity);
                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"airtemp\":%.1f,\"dewpoint\":%.1f,"
                                   "\"pressure\":%u,\"pressuretend\":\"%s\"",
                                   ((signed int)ais->type8.dac1fid11.airtemp - DAC1FID11_AIRTEMP_OFFSET) / DAC1FID11_AIRTEMP_DIV,
                                   ((signed int)ais->type8.dac1fid11.dewpoint - DAC1FID11_DEWPOINT_OFFSET) / DAC1FID11_DEWPOINT_DIV,
                                   ais->type8.dac1fid11.pressure - DAC1FID11_PRESSURE_OFFSET,
                                   trends[ais->type8.dac1fid11.pressuretend]);
                else
                    str_appendf(buf, buflen,
                                   ",\"airtemp\":%u,\"dewpoint\":%u,"
                                   "\"pressure\":%u,\"pressuretend\":%u",
                                   ais->type8.dac1fid11.airtemp,
                                   ais->type8.dac1fid11.dewpoint,
                                   ais->type8.dac1fid11.pressure,
                                   ais->type8.dac1fid11.pressuretend);

                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"visibility\":%.1f",
                                   ais->type8.dac1fid11.visibility / DAC1FID11_VISIBILITY_DIV);
                else
                    str_appendf(buf, buflen,
                                   ",\"visibility\":%u",
                                   ais->type8.dac1fid11.visibility);
                if (!scaled)
                    str_appendf(buf, buflen,
                                   ",\"waterlevel\":%d",
                                   ais->type8.dac1fid11.waterlevel);
                else
                    str_appendf(buf, buflen,
                                   ",\"waterlevel\":%.1f",
                                   ((signed int)ais->type8.dac1fid11.waterlevel - DAC1FID11_WATERLEVEL_OFFSET) / DAC1FID11_WATERLEVEL_DIV);

                if (scaled) {
                    str_appendf(buf, buflen,
                                   ",\"leveltrend\":\"%s\","
                                   "\"cspeed\":%.1f,\"cdir\":%u,"
                                   "\"cspeed2\":%.1f,\"cdir2\":%u,"
                                   "\"cdepth2\":%u,"
                                   "\"cspeed3\":%.1f,\"cdir3\":%u,"
                                   "\"cdepth3\":%u,"
                                   "\"waveheight\":%.1f,\"waveperiod\":%u,"
                                   "\"wavedir\":%u,"
                                   "\"swellheight\":%.1f,\"swellperiod\":%u,"
                                   "\"swelldir\":%u,"
                                   "\"seastate\":%u,\"watertemp\":%.1f,"
                                   "\"preciptype\":%u,"
                                   "\"preciptype_text\":\"%s\","
                                   "\"salinity\":%.1f,\"ice\":%u,"
                                   "\"ice_text\":\"%s\"",
                                   trends[ais->type8.dac1fid11.leveltrend],
                                   ais->type8.dac1fid11.cspeed / DAC1FID11_CSPEED_DIV,
                                   ais->type8.dac1fid11.cdir,
                                   ais->type8.dac1fid11.cspeed2 / DAC1FID11_CSPEED_DIV,
                                   ais->type8.dac1fid11.cdir2,
                                   ais->type8.dac1fid11.cdepth2,
                                   ais->type8.dac1fid11.cspeed3 / DAC1FID11_CSPEED_DIV,
                                   ais->type8.dac1fid11.cdir3,
                                   ais->type8.dac1fid11.cdepth3,
                                   ais->type8.dac1fid11.waveheight / DAC1FID11_WAVEHEIGHT_DIV,
                                   ais->type8.dac1fid11.waveperiod,
                                   ais->type8.dac1fid11.wavedir,
                                   ais->type8.dac1fid11.swellheight / DAC1FID11_WAVEHEIGHT_DIV,
                                   ais->type8.dac1fid11.swellperiod,
                                   ais->type8.dac1fid11.swelldir,
                                   ais->type8.dac1fid11.seastate,
                                   ((signed int)ais->type8.dac1fid11.watertemp - DAC1FID11_WATERTEMP_OFFSET) / DAC1FID11_WATERTEMP_DIV,
                                   ais->type8.dac1fid11.preciptype,
                                   preciptypes[ais->type8.dac1fid11.preciptype],
                                   ais->type8.dac1fid11.salinity / DAC1FID11_SALINITY_DIV,
                                   ais->type8.dac1fid11.ice,
                                   ice[ais->type8.dac1fid11.ice]);
                } else
                    str_appendf(buf, buflen,
                                   ",\"leveltrend\":%u,"
                                   "\"cspeed\":%u,\"cdir\":%u,"
                                   "\"cspeed2\":%u,\"cdir2\":%u,"
                                   "\"cdepth2\":%u,"
                                   "\"cspeed3\":%u,\"cdir3\":%u,"
                                   "\"cdepth3\":%u,"
                                   "\"waveheight\":%u,\"waveperiod\":%u,"
                                   "\"wavedir\":%u,"
                                   "\"swellheight\":%u,\"swellperiod\":%u,"
                                   "\"swelldir\":%u,"
                                   "\"seastate\":%u,\"watertemp\":%u,"
                                   "\"preciptype\":%u,"
                                   "\"preciptype_text\":\"%s\","
                                   "\"salinity\":%u,\"ice\":%u,"
                                   "\"ice_text\":\"%s\"",
                                   ais->type8.dac1fid11.leveltrend,
                                   ais->type8.dac1fid11.cspeed,
                                   ais->type8.dac1fid11.cdir,
                                   ais->type8.dac1fid11.cspeed2,
                                   ais->type8.dac1fid11.cdir2,
                                   ais->type8.dac1fid11.cdepth2,
                                   ais->type8.dac1fid11.cspeed3,
                                   ais->type8.dac1fid11.cdir3,
                                   ais->type8.dac1fid11.cdepth3,
                                   ais->type8.dac1fid11.waveheight,
                                   ais->type8.dac1fid11.waveperiod,
                                   ais->type8.dac1fid11.wavedir,
                                   ais->type8.dac1fid11.swellheight,
                                   ais->type8.dac1fid11.swellperiod,
                                   ais->type8.dac1fid11.swelldir,
                                   ais->type8.dac1fid11.seastate,
                                   ais->type8.dac1fid11.watertemp,
                                   ais->type8.dac1fid11.preciptype,
                                   preciptypes[ais->type8.dac1fid11.preciptype],
                                   ais->type8.dac1fid11.salinity,
                                   ais->type8.dac1fid11.ice,
                                   ice[ais->type8.dac1fid11.ice]);
                (void)strlcat(buf, "}\r\n", buflen);
                break;
            case 13:        /* IMO236 - Fairway closed */
                str_appendf(buf, buflen,
                               ",\"reason\":\"%s\",\"closefrom\":\"%s\","
                               "\"closeto\":\"%s\",\"radius\":%u,"
                               "\"extunit\":%u,"
                               "\"from\":\"%02u-%02uT%02u:%02u\","
                               "\"to\":\"%02u-%02uT%02u:%02u\"}\r\n",
                               json_stringify(buf1, sizeof(buf1),
                                              ais->type8.dac1fid13.reason),
                               json_stringify(buf2, sizeof(buf2),
                                              ais->type8.dac1fid13.closefrom),
                               json_stringify(buf3, sizeof(buf3),
                                              ais->type8.dac1fid13.closeto),
                               ais->type8.dac1fid13.radius,
                               ais->type8.dac1fid13.extunit,
                               ais->type8.dac1fid13.fmonth,
                               ais->type8.dac1fid13.fday,
                               ais->type8.dac1fid13.fhour,
                               ais->type8.dac1fid13.fminute,
                               ais->type8.dac1fid13.tmonth,
                               ais->type8.dac1fid13.tday,
                               ais->type8.dac1fid13.thour,
                               ais->type8.dac1fid13.tminute);
                break;
            case 15:        /* IMO236 - Extended ship and voyage */
                str_appendf(buf, buflen,
                               ",\"airdraught\":%u}\r\n",
                               ais->type8.dac1fid15.airdraught);
                break;
            case 16:    /* IMO289 - Number of persons on board */
                str_appendf(buf, buflen,
                            ",\"persons\":%u}\r\n",
                            ais->type6.dac1fid16.persons);
                break;
            case 17:        /* IMO289 - VTS-generated/synthetic targets */
                (void)strlcat(buf, ",\"targets\":[", buflen);
                for (i = 0; i < ais->type8.dac1fid17.ntargets; i++) {
                    str_appendf(buf, buflen,
                                   "{\"idtype\":%u,\"idtype_text\":\"%s\"",
                                   ais->type8.dac1fid17.targets[i].idtype,
                                   idtypes[ais->type8.dac1fid17.targets[i].idtype]);
                    switch (ais->type8.dac1fid17.targets[i].idtype) {
                    case DAC1FID17_IDTYPE_MMSI:
                        str_appendf(buf, buflen,
                            ",\"%s\":\"%u\"",
                            idtypes[ais->type8.dac1fid17.targets[i].idtype],
                            ais->type8.dac1fid17.targets[i].id.mmsi);
                        break;
                    case DAC1FID17_IDTYPE_IMO:
                        str_appendf(buf, buflen,
                            ",\"%s\":\"%u\"",
                            idtypes[ais->type8.dac1fid17.targets[i].idtype],
                            ais->type8.dac1fid17.targets[i].id.imo);
                        break;
                    case DAC1FID17_IDTYPE_CALLSIGN:
                        str_appendf(buf, buflen,
                            ",\"%s\":\"%s\"",
                            idtypes[ais->type8.dac1fid17.targets[i].idtype],
                            json_stringify(buf1, sizeof(buf1),
                               ais->type8.dac1fid17.targets[i].id.callsign));
                        break;
                    default:
                        str_appendf(buf, buflen,
                            ",\"%s\":\"%s\"",
                            idtypes[ais->type8.dac1fid17.targets[i].idtype],
                            json_stringify(buf1, sizeof(buf1),
                                           ais->type8.dac1fid17.targets[i].id.other));
                    }
                    if (scaled)
                        str_appendf(buf, buflen,
                            ",\"lat\":%.4f,\"lon\":%.4f",
                            ais->type8.dac1fid17.targets[i].lat / AIS_LATLON3_DIV,
                            ais->type8.dac1fid17.targets[i].lon / AIS_LATLON3_DIV);
                    else
                        str_appendf(buf, buflen,
                            ",\"lat\":%d,\"lon\":%d",
                            ais->type8.dac1fid17.targets[i].lat,
                            ais->type8.dac1fid17.targets[i].lon);
                    str_appendf(buf, buflen,
                        ",\"course\":%u,\"second\":%u,\"speed\":%u},",
                        ais->type8.dac1fid17.targets[i].course,
                        ais->type8.dac1fid17.targets[i].second,
                        ais->type8.dac1fid17.targets[i].speed);
                }
                str_rstrip_char(buf, ',');
                (void)strlcat(buf, "]}\r\n", buflen);
                break;
            case 19:        /* IMO289 - Marine Traffic Signal */
                str_appendf(buf, buflen,
                               ",\"linkage\":%u,\"station\":\"%s\","
                               "\"lon\":%.4f,\"lat\":%.4f,\"status\":%u,"
                               "\"signal\":%u,\"signal_text\":\"%s\","
                               "\"hour\":%u,\"minute\":%u,"
                               "\"nextsignal\":%u"
                               "\"nextsignal_text\":\"%s\""
                               "}\r\n",
                               ais->type8.dac1fid19.linkage,
                               json_stringify(buf1, sizeof(buf1),
                                              ais->type8.dac1fid19.station),
                               ais->type8.dac1fid19.lon / AIS_LATLON3_DIV,
                               ais->type8.dac1fid19.lat / AIS_LATLON3_DIV,
                               ais->type8.dac1fid19.status,
                               ais->type8.dac1fid19.signal,
                               SIGNAL_DISPLAY(ais->type8.dac1fid19.signal),
                               ais->type8.dac1fid19.hour,
                               ais->type8.dac1fid19.minute,
                               ais->type8.dac1fid19.nextsignal,
                               SIGNAL_DISPLAY(ais->type8.dac1fid19.nextsignal));
                break;
            case 21:        /* IMO289 - Weather obs. report from ship */
                break;
            case 22:        /* IMO289 - Area notice - broadcast */
                break;
            case 24:  /* IMO289 - Extended ship static & voyage-related data */
                break;
            case 25:        /* IMO289 - Dangerous Cargo Indication */
                break;
            case 27:        /* IMO289 - Route information - broadcast */
                str_appendf(buf, buflen,
                               ",\"linkage\":%u,\"sender\":%u,"
                               "\"rtype\":%u,"
                               "\"rtype_text\":\"%s\","
                               "\"start\":\"%02u-%02uT%02u:%02uZ\","
                               "\"duration\":%u,\"waypoints\":[",
                               ais->type8.dac1fid27.linkage,
                               ais->type8.dac1fid27.sender,
                               ais->type8.dac1fid27.rtype,
                               route_type[ais->type8.dac1fid27.rtype],
                               ais->type8.dac1fid27.month,
                               ais->type8.dac1fid27.day,
                               ais->type8.dac1fid27.hour,
                               ais->type8.dac1fid27.minute,
                               ais->type8.dac1fid27.duration);
                for (i = 0; i < ais->type8.dac1fid27.waycount; i++) {
                    if (scaled)
                        str_appendf(buf, buflen,
                            "{\"lon\":%.6f,\"lat\":%.6f},",
                            ais->type8.dac1fid27.waypoints[i].lon / AIS_LATLON4_DIV,
                            ais->type8.dac1fid27.waypoints[i].lat / AIS_LATLON4_DIV);
                    else
                        str_appendf(buf, buflen,
                            "{\"lon\":%d,\"lat\":%d},",
                            ais->type8.dac1fid27.waypoints[i].lon,
                            ais->type8.dac1fid27.waypoints[i].lat);
                }
                str_rstrip_char(buf, ',');
                (void)strlcat(buf, "]}\r\n", buflen);
                break;
            case 29:        /* IMO289 - Text Description - broadcast */
                str_appendf(buf, buflen,
                       ",\"linkage\":%u,\"text\":\"%s\"}\r\n",
                       ais->type8.dac1fid29.linkage,
                       json_stringify(buf1, sizeof(buf1),
                                      ais->type8.dac1fid29.text));
                break;
            case 31:        /* IMO289 - Meteorological/Hydrological data */
                /* some fields have been merged to an ISO8601 partial date */
                /* layout is almost identical to FID=11 from IMO236 */
                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"lat\":%.4f,\"lon\":%.4f",
                                   ais->type8.dac1fid31.lat / AIS_LATLON3_DIV,
                                   ais->type8.dac1fid31.lon / AIS_LATLON3_DIV);
                else
                    str_appendf(buf, buflen,
                                   ",\"lat\":%d,\"lon\":%d",
                                   ais->type8.dac1fid31.lat,
                                   ais->type8.dac1fid31.lon);
                str_appendf(buf, buflen,
                               ",\"accuracy\":%s",
                               JSON_BOOL(ais->type8.dac1fid31.accuracy));
                str_appendf(buf, buflen,
                               ",\"timestamp\":\"%02uT%02u:%02uZ\","
                               "\"wspeed\":%u,\"wgust\":%u,\"wdir\":%u,"
                               "\"wgustdir\":%u,\"humidity\":%u",
                               ais->type8.dac1fid31.day,
                               ais->type8.dac1fid31.hour,
                               ais->type8.dac1fid31.minute,
                               ais->type8.dac1fid31.wspeed,
                               ais->type8.dac1fid31.wgust,
                               ais->type8.dac1fid31.wdir,
                               ais->type8.dac1fid31.wgustdir,
                               ais->type8.dac1fid31.humidity);
                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"airtemp\":%.1f,\"dewpoint\":%.1f,"
                                   "\"pressure\":%u,\"pressuretend\":\"%s\","
                                   "\"visgreater\":%s",
                                   ais->type8.dac1fid31.airtemp / DAC1FID31_AIRTEMP_DIV,
                                   ais->type8.dac1fid31.dewpoint / DAC1FID31_DEWPOINT_DIV,
                                   ais->type8.dac1fid31.pressure - DAC1FID31_PRESSURE_OFFSET,
                                   trends[ais->type8.dac1fid31.pressuretend],
                                   JSON_BOOL(ais->type8.dac1fid31.visgreater));
                else
                    str_appendf(buf, buflen,
                                   ",\"airtemp\":%d,\"dewpoint\":%d,"
                                   "\"pressure\":%u,\"pressuretend\":%u,"
                                   "\"visgreater\":%s",
                                   ais->type8.dac1fid31.airtemp,
                                   ais->type8.dac1fid31.dewpoint,
                                   ais->type8.dac1fid31.pressure,
                                   ais->type8.dac1fid31.pressuretend,
                                   JSON_BOOL(ais->type8.dac1fid31.visgreater));

                if (scaled)
                    str_appendf(buf, buflen,
                                   ",\"visibility\":%.1f",
                                   ais->type8.dac1fid31.visibility / DAC1FID31_VISIBILITY_DIV);
                else
                    str_appendf(buf, buflen,
                                   ",\"visibility\":%u",
                                   ais->type8.dac1fid31.visibility);
                if (!scaled)
                    str_appendf(buf, buflen,
                                   ",\"waterlevel\":%d",
                                   ais->type8.dac1fid31.waterlevel);
                else
                    str_appendf(buf, buflen,
                                   ",\"waterlevel\":%.1f",
                                   ((unsigned int)ais->type8.dac1fid31.waterlevel - DAC1FID31_WATERLEVEL_OFFSET) / DAC1FID31_WATERLEVEL_DIV);

                if (scaled) {
                    str_appendf(buf, buflen,
                                   ",\"leveltrend\":\"%s\","
                                   "\"cspeed\":%.1f,\"cdir\":%u,"
                                   "\"cspeed2\":%.1f,\"cdir2\":%u,"
                                   "\"cdepth2\":%u,"
                                   "\"cspeed3\":%.1f,\"cdir3\":%u,"
                                   "\"cdepth3\":%u,"
                                   "\"waveheight\":%.1f,\"waveperiod\":%u,"
                                   "\"wavedir\":%u,"
                                   "\"swellheight\":%.1f,\"swellperiod\":%u,"
                                   "\"swelldir\":%u,"
                                   "\"seastate\":%u,\"watertemp\":%.1f,"
                                   "\"preciptype\":\"%s\",\"salinity\":%.1f,"
                                   "\"ice\":\"%s\"",
                                   trends[ais->type8.dac1fid31.leveltrend],
                                   ais->type8.dac1fid31.cspeed / DAC1FID31_CSPEED_DIV,
                                   ais->type8.dac1fid31.cdir,
                                   ais->type8.dac1fid31.cspeed2 / DAC1FID31_CSPEED_DIV,
                                   ais->type8.dac1fid31.cdir2,
                                   ais->type8.dac1fid31.cdepth2,
                                   ais->type8.dac1fid31.cspeed3 / DAC1FID31_CSPEED_DIV,
                                   ais->type8.dac1fid31.cdir3,
                                   ais->type8.dac1fid31.cdepth3,
                                   ais->type8.dac1fid31.waveheight / DAC1FID31_HEIGHT_DIV,
                                   ais->type8.dac1fid31.waveperiod,
                                   ais->type8.dac1fid31.wavedir,
                                   ais->type8.dac1fid31.swellheight / DAC1FID31_HEIGHT_DIV,
                                   ais->type8.dac1fid31.swellperiod,
                                   ais->type8.dac1fid31.swelldir,
                                   ais->type8.dac1fid31.seastate,
                                   ais->type8.dac1fid31.watertemp / DAC1FID31_WATERTEMP_DIV,
                                   preciptypes[ais->type8.dac1fid31.preciptype],
                                   ais->type8.dac1fid31.salinity / DAC1FID31_SALINITY_DIV,
                                   ice[ais->type8.dac1fid31.ice]);
                } else
                    str_appendf(buf, buflen,
                                   ",\"leveltrend\":%u,"
                                   "\"cspeed\":%u,\"cdir\":%u,"
                                   "\"cspeed2\":%u,\"cdir2\":%u,"
                                   "\"cdepth2\":%u,"
                                   "\"cspeed3\":%u,\"cdir3\":%u,"
                                   "\"cdepth3\":%u,"
                                   "\"waveheight\":%u,\"waveperiod\":%u,"
                                   "\"wavedir\":%u,"
                                   "\"swellheight\":%u,\"swellperiod\":%u,"
                                   "\"swelldir\":%u,"
                                   "\"seastate\":%u,\"watertemp\":%d,"
                                   "\"preciptype\":%u,\"salinity\":%u,"
                                   "\"ice\":%u",
                                   ais->type8.dac1fid31.leveltrend,
                                   ais->type8.dac1fid31.cspeed,
                                   ais->type8.dac1fid31.cdir,
                                   ais->type8.dac1fid31.cspeed2,
                                   ais->type8.dac1fid31.cdir2,
                                   ais->type8.dac1fid31.cdepth2,
                                   ais->type8.dac1fid31.cspeed3,
                                   ais->type8.dac1fid31.cdir3,
                                   ais->type8.dac1fid31.cdepth3,
                                   ais->type8.dac1fid31.waveheight,
                                   ais->type8.dac1fid31.waveperiod,
                                   ais->type8.dac1fid31.wavedir,
                                   ais->type8.dac1fid31.swellheight,
                                   ais->type8.dac1fid31.swellperiod,
                                   ais->type8.dac1fid31.swelldir,
                                   ais->type8.dac1fid31.seastate,
                                   ais->type8.dac1fid31.watertemp,
                                   ais->type8.dac1fid31.preciptype,
                                   ais->type8.dac1fid31.salinity,
                                   ais->type8.dac1fid31.ice);
                (void)strlcat(buf, "}\r\n", buflen);
                break;
            }
        }
        else if (ais->type8.dac == 200) {
            struct {
                const unsigned int code;
                const unsigned int ais;
                const char *legend;
            } *cp, shiptypes[] = {
                /*
                 * The Inland AIS standard is not clear which numbers are
                 * supposed to be in the type slot.  The ranges are disjoint,
                 * so we'll match on both.
                 */
                {8000, 99, "Vessel, type unknown"},
                {8010, 79, "Motor freighter"},
                {8020, 89, "Motor tanker"},
                {8021, 80, "Motor tanker, liquid cargo, type N"},
                {8022, 80, "Motor tanker, liquid cargo, type C"},
                {8023, 89,
                 "Motor tanker, dry cargo as if liquid (e.g. cement)"},
                {8030, 79, "Container vessel"},
                {8040, 80, "Gas tanker"},
                {8050, 79, "Motor freighter, tug"},
                {8060, 89, "Motor tanker, tug"},
                {8070, 79, "Motor freighter with one or more ships alongside"},
                {8080, 89, "Motor freighter with tanker"},
                {8090, 79, "Motor freighter pushing one or more freighters"},
                {8100, 89, "Motor freighter pushing at least one tank-ship"},
                {8110, 79, "Tug, freighter"},
                {8120, 89, "Tug, tanker"},
                {8130, 31, "Tug freighter, coupled"},
                {8140, 31, "Tug, freighter/tanker, coupled"},
                {8150, 99, "Freightbarge"},
                {8160, 99, "Tankbarge"},
                {8161, 90, "Tankbarge, liquid cargo, type N"},
                {8162, 90, "Tankbarge, liquid cargo, type C"},
                {8163, 99, "Tankbarge, dry cargo as if liquid (e.g. cement)"},
                {8170, 99, "Freightbarge with containers"},
                {8180, 90, "Tankbarge, gas"},
                {8210, 79, "Pushtow, one cargo barge"},
                {8220, 79, "Pushtow, two cargo barges"},
                {8230, 79, "Pushtow, three cargo barges"},
                {8240, 79, "Pushtow, four cargo barges"},
                {8250, 79, "Pushtow, five cargo barges"},
                {8260, 79, "Pushtow, six cargo barges"},
                {8270, 79, "Pushtow, seven cargo barges"},
                {8280, 79, "Pushtow, eigth cargo barges"},
                {8290, 79, "Pushtow, nine or more barges"},
                {8310, 80, "Pushtow, one tank/gas barge"},
                {8320, 80,
                 "Pushtow, two barges at least one tanker or gas barge"},
                {8330, 80,
                 "Pushtow, three barges at least one tanker or gas barge"},
                {8340, 80,
                 "Pushtow, four barges at least one tanker or gas barge"},
                {8350, 80,
                 "Pushtow, five barges at least one tanker or gas barge"},
                {8360, 80,
                 "Pushtow, six barges at least one tanker or gas barge"},
                {8370, 80,
                 "Pushtow, seven barges at least one tanker or gas barg"},
                {0, 0, "Illegal ship type value."},
            };
            const char *hazard_types[] = {
                "0 blue cones/lights",
                "1 blue cone/light",
                "2 blue cones/lights",
                "3 blue cones/lights",
                "4 B-Flag",
                "Unknown",
            };
#define HTYPE_DISPLAY(n) (((n) < (unsigned int)NITEMS(hazard_types)) ? hazard_types[n] : "INVALID HAZARD TYPE")
            const char *lstatus_types[] = {
                "N/A (default)",
                "Unloaded",
                "Loaded",
            };
#define LSTATUS_DISPLAY(n) (((n) < (unsigned int)NITEMS(lstatus_types)) ? lstatus_types[n] : "INVALID LOAD STATUS")
            const char *emma_types[] = {
                "Not Available",
                "Wind",
                "Rain",
                "Snow and ice",
                "Thunderstorm",
                "Fog",
                "Low temperature",
                "High temperature",
                "Flood",
                "Forest Fire",
            };
#define EMMA_TYPE_DISPLAY(n) (((n) < (unsigned int)NITEMS(emma_types)) ? emma_types[n] : "INVALID EMMA TYPE")
            const char *emma_classes[] = {
                "Slight",
                "Medium",
                "Strong",
            };
#define EMMA_CLASS_DISPLAY(n) (((n) < (unsigned int)NITEMS(emma_classes)) ? emma_classes[n] : "INVALID EMMA TYPE")
            const char *emma_winds[] = {
                "N/A",
                "North",
                "North East",
                "East",
                "South East",
                "South",
                "South West",
                "West",
                "North West",
            };
#define EMMA_WIND_DISPLAY(n) (((n) < (unsigned int)NITEMS(emma_winds)) ? emma_winds[n] : "INVALID EMMA WIND DIRECTION")
            const char *direction_vocabulary[] = {
                "Unknown",
                "Upstream",
                "Downstream",
                "To left bank",
                "To right bank",
            };
#define DIRECTION_DISPLAY(n) (((n) < (unsigned int)NITEMS(direction_vocabulary)) ? direction_vocabulary[n] : "INVALID DIRECTION")
            const char *status_vocabulary[] = {
                "Unknown",
                "No light",
                "White",
                "Yellow",
                "Green",
                "Red",
                "White flashing",
                "Yellow flashing.",
            };
#define STATUS_DISPLAY(n) (((n) < (unsigned int)NITEMS(status_vocabulary)) ? status_vocabulary[n] : "INVALID STATUS")

            switch (ais->type8.fid) {
            case 10:        /* Inland ship static and voyage-related data */
                for (cp = shiptypes; cp < shiptypes + NITEMS(shiptypes); cp++)
                    if (cp->code == ais->type8.dac200fid10.shiptype
                        || cp->ais == ais->type8.dac200fid10.shiptype
                        || cp->code == 0)
                        break;
                str_appendf(buf, buflen,
                               ",\"vin\":\"%s\",\"length\":%u,\"beam\":%u,"
                               "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                               "\"hazard\":%u,\"hazard_text\":\"%s\","
                               "\"draught\":%u,"
                               "\"loaded\":%u,\"loaded_text\":\"%s\","
                               "\"speed_q\":%s,"
                               "\"course_q\":%s,"
                               "\"heading_q\":%s}\r\n",
                               json_stringify(buf1, sizeof(buf1),
                               ais->type8.dac200fid10.vin),
                               ais->type8.dac200fid10.length,
                               ais->type8.dac200fid10.beam,
                               ais->type8.dac200fid10.shiptype,
                               cp->legend,
                               ais->type8.dac200fid10.hazard,
                               HTYPE_DISPLAY(ais->type8.dac200fid10.hazard),
                               ais->type8.dac200fid10.draught,
                               ais->type8.dac200fid10.loaded,
                               LSTATUS_DISPLAY(ais->type8.dac200fid10.loaded),
                               JSON_BOOL(ais->type8.dac200fid10.speed_q),
                               JSON_BOOL(ais->type8.dac200fid10.course_q),
                               JSON_BOOL(ais->type8.dac200fid10.heading_q));
                break;
            case 23:    /* EMMA warning */
                if (!ais->type8.structured)
                    break;
                str_appendf(buf, buflen,
                               ",\"start\":\"%4u-%02u-%02uT%02u:%02u\","
                               "\"end\":\"%4u-%02u-%02uT%02u:%02u\"",
                               ais->type8.dac200fid23.start_year + 2000,
                               ais->type8.dac200fid23.start_month,
                               ais->type8.dac200fid23.start_hour,
                               ais->type8.dac200fid23.start_minute,
                               ais->type8.dac200fid23.start_day,
                               ais->type8.dac200fid23.end_year + 2000,
                               ais->type8.dac200fid23.end_month,
                               ais->type8.dac200fid23.end_day,
                               ais->type8.dac200fid23.end_hour,
                               ais->type8.dac200fid23.end_minute);
                if (scaled)
                    str_appendf(buf, buflen,
                        ",\"start_lon\":%.6f,\"start_lat\":%.6f,"
                        "\"end_lon\":%.6f,\"end_lat\":%.6f",
                        ais->type8.dac200fid23.start_lon / AIS_LATLON_DIV,
                        ais->type8.dac200fid23.start_lat / AIS_LATLON_DIV,
                        ais->type8.dac200fid23.end_lon / AIS_LATLON_DIV,
                        ais->type8.dac200fid23.end_lat / AIS_LATLON_DIV);
                else
                    str_appendf(buf, buflen,
                        ",\"start_lon\":%d,\"start_lat\":%d,\"end_lon\":%d,"
                        "\"end_lat\":%d",
                        ais->type8.dac200fid23.start_lon,
                        ais->type8.dac200fid23.start_lat,
                        ais->type8.dac200fid23.end_lon,
                        ais->type8.dac200fid23.end_lat);
                str_appendf(buf, buflen,
                    ",\"type\":%u,\"type_text\":\"%s\",\"min\":%d,"
                    "\"max\":%d,\"class\":%u,\"class_text\":\"%s\","
                    "\"wind\":%u,\"wind_text\":\"%s\"}\r\n",

                    ais->type8.dac200fid23.type,
                    EMMA_TYPE_DISPLAY(ais->type8.dac200fid23.type),
                    ais->type8.dac200fid23.min,
                    ais->type8.dac200fid23.max,
                    ais->type8.dac200fid23.intensity,
                    EMMA_CLASS_DISPLAY(ais->type8.dac200fid23.intensity),
                    ais->type8.dac200fid23.wind,
                    EMMA_WIND_DISPLAY(ais->type8.dac200fid23.wind));
                break;
            case 24:    /* Inland AIS Water Levels */
                str_appendf(buf, buflen,
                    ",\"country\":\"%s\",\"gauges\":[",
                    ais->type8.dac200fid24.country);
                for (i = 0; i < ais->type8.dac200fid24.ngauges; i++) {
                    str_appendf(buf, buflen,
                        "{\"id\":%u,\"level\":%d},",
                        ais->type8.dac200fid24.gauges[i].id,
                        ais->type8.dac200fid24.gauges[i].level);
                }
                str_rstrip_char(buf, ',');
                (void)strlcat(buf, "]}\r\n", buflen);
                break;
            case 40:    /* Inland AIS Signal Strength */
                if (scaled)
                    str_appendf(buf, buflen,
                        ",\"lon\":%.6f,\"lat\":%.6f",
                        ais->type8.dac200fid40.lon / AIS_LATLON_DIV,
                        ais->type8.dac200fid40.lat / AIS_LATLON_DIV);
                else
                    str_appendf(buf, buflen,
                        ",\"lon\":%d,\"lat\":%d",
                        ais->type8.dac200fid40.lon,
                        ais->type8.dac200fid40.lat);
                str_appendf(buf, buflen,
                    ",\"form\":%u,\"facing\":%u,\"direction\":%u,"
                    "\"direction_text\":\"%s\",\"status\":%u,"
                    "\"status_text\":\"%s\"}\r\n",
                    ais->type8.dac200fid40.form,
                    ais->type8.dac200fid40.facing,
                    ais->type8.dac200fid40.direction,
                    DIRECTION_DISPLAY(ais->type8.dac200fid40.direction),
                    ais->type8.dac200fid40.status,
                    STATUS_DISPLAY(ais->type8.dac200fid40.status));
                break;
            }
        }
        break;
    case 9:                     /* Standard SAR Aircraft Position Report */
        if (scaled) {
            char altlegend[20];
            char speedlegend[20];

            /*
             * Express altitude as nan if not available,
             * "high" for above the reporting ceiling.
             */
            if (ais->type9.alt == AIS_ALT_NOT_AVAILABLE)
                (void)strlcpy(altlegend, "\"nan\"", sizeof(altlegend));
            else if (ais->type9.alt == AIS_ALT_HIGH)
                (void)strlcpy(altlegend, "\"high\"", sizeof(altlegend));
            else
                (void)snprintf(altlegend, sizeof(altlegend),
                               "%u", ais->type9.alt);

            /*
             * Express speed as nan if not available,
             * "high" for above the reporting ceiling.
             */
            if (ais->type9.speed == AIS_SAR_SPEED_NOT_AVAILABLE)
                (void)strlcpy(speedlegend, "\"nan\"", sizeof(speedlegend));
            else if (ais->type9.speed == AIS_SAR_FAST_MOVER)
                (void)strlcpy(speedlegend, "\"fast\"", sizeof(speedlegend));
            else
                (void)snprintf(speedlegend, sizeof(speedlegend),
                               "%u", ais->type9.speed);

            str_appendf(buf, buflen,
                           ",\"alt\":%s,\"speed\":%s,\"accuracy\":%s,"
                           "\"lon\":%.6f,\"lat\":%.6f,\"course\":%.1f,"
                           "\"second\":%u,\"regional\":%u,\"dte\":%u,"
                           "\"raim\":%s,\"radio\":%u}\r\n",
                           altlegend,
                           speedlegend,
                           JSON_BOOL(ais->type9.accuracy),
                           ais->type9.lon / AIS_LATLON_DIV,
                           ais->type9.lat / AIS_LATLON_DIV,
                           ais->type9.course / 10.0,
                           ais->type9.second,
                           ais->type9.regional,
                           ais->type9.dte,
                           JSON_BOOL(ais->type9.raim), ais->type9.radio);
        } else {
            str_appendf(buf, buflen,
                           ",\"alt\":%u,\"speed\":%u,\"accuracy\":%s,"
                           "\"lon\":%d,\"lat\":%d,\"course\":%u,"
                           "\"second\":%u,\"regional\":%u,\"dte\":%u,"
                           "\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type9.alt,
                           ais->type9.speed,
                           JSON_BOOL(ais->type9.accuracy),
                           ais->type9.lon,
                           ais->type9.lat,
                           ais->type9.course,
                           ais->type9.second,
                           ais->type9.regional,
                           ais->type9.dte,
                           JSON_BOOL(ais->type9.raim), ais->type9.radio);
        }
        break;
    case 10:                    /* UTC/Date Inquiry */
        str_appendf(buf, buflen,
                       ",\"dest_mmsi\":%u}\r\n", ais->type10.dest_mmsi);
        break;
    case 12:                    /* Safety Related Message */
        str_appendf(buf, buflen,
                       ",\"seqno\":%u,\"dest_mmsi\":%u,\"retransmit\":%s,"
                       "\"text\":\"%s\"}\r\n",
                       ais->type12.seqno,
                       ais->type12.dest_mmsi,
                       JSON_BOOL(ais->type12.retransmit),
                       json_stringify(buf1, sizeof(buf1), ais->type12.text));
        break;
    case 14:                    /* Safety Related Broadcast Message */
        str_appendf(buf, buflen,
                       ",\"text\":\"%s\"}\r\n",
                       json_stringify(buf1, sizeof(buf1), ais->type14.text));
        break;
    case 15:                    /* Interrogation */
        str_appendf(buf, buflen,
                       ",\"mmsi1\":%u,\"type1_1\":%u,\"offset1_1\":%u,"
                       "\"type1_2\":%u,\"offset1_2\":%u,\"mmsi2\":%u,"
                       "\"type2_1\":%u,\"offset2_1\":%u}\r\n",
                       ais->type15.mmsi1,
                       ais->type15.type1_1,
                       ais->type15.offset1_1,
                       ais->type15.type1_2,
                       ais->type15.offset1_2,
                       ais->type15.mmsi2,
                       ais->type15.type2_1, ais->type15.offset2_1);
        break;
    case 16:
        str_appendf(buf, buflen,
                       ",\"mmsi1\":%u,\"offset1\":%u,\"increment1\":%u,"
                       "\"mmsi2\":%u,\"offset2\":%u,\"increment2\":%u}\r\n",
                       ais->type16.mmsi1,
                       ais->type16.offset1,
                       ais->type16.increment1,
                       ais->type16.mmsi2,
                       ais->type16.offset2, ais->type16.increment2);
        break;
    case 17:
        if (scaled) {
            str_appendf(buf, buflen,
                           ",\"lon\":%.1f,\"lat\":%.1f,\"data\":\"%zd:%s\""
                           "}\r\n",
                           ais->type17.lon / AIS_GNSS_LATLON_DIV,
                           ais->type17.lat / AIS_GNSS_LATLON_DIV,
                           ais->type17.bitcount,
                           gpsd_hexdump(scratchbuf, sizeof(scratchbuf),
                                        (char *)ais->type17.bitdata,
                                        BITS_TO_BYTES(ais->type17.bitcount)));
        } else {
            str_appendf(buf, buflen,
                           ",\"lon\":%d,\"lat\":%d,\"data\":\"%zd:%s\"}\r\n",
                           ais->type17.lon,
                           ais->type17.lat,
                           ais->type17.bitcount,
                           gpsd_hexdump(scratchbuf, sizeof(scratchbuf),
                                        (char *)ais->type17.bitdata,
                                        BITS_TO_BYTES(ais->type17.bitcount)));
        }
        break;
    case 18:
        if (scaled) {
            str_appendf(buf, buflen,
                           ",\"reserved\":%u,\"speed\":%.1f,\"accuracy\":%s,"
                           "\"lon\":%.6f,\"lat\":%.6f,\"course\":%.1f,"
                           "\"heading\":%u,\"second\":%u,\"regional\":%u,"
                           "\"cs\":%s,\"display\":%s,\"dsc\":%s,\"band\":%s,"
                           "\"msg22\":%s,\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type18.reserved,
                           ais->type18.speed / 10.0,
                           JSON_BOOL(ais->type18.accuracy),
                           ais->type18.lon / AIS_LATLON_DIV,
                           ais->type18.lat / AIS_LATLON_DIV,
                           ais->type18.course / 10.0,
                           ais->type18.heading,
                           ais->type18.second,
                           ais->type18.regional,
                           JSON_BOOL(ais->type18.cs),
                           JSON_BOOL(ais->type18.display),
                           JSON_BOOL(ais->type18.dsc),
                           JSON_BOOL(ais->type18.band),
                           JSON_BOOL(ais->type18.msg22),
                           JSON_BOOL(ais->type18.raim), ais->type18.radio);
        } else {
            str_appendf(buf, buflen,
                           ",\"reserved\":%u,\"speed\":%u,\"accuracy\":%s,"
                           "\"lon\":%d,\"lat\":%d,\"course\":%u,"
                           "\"heading\":%u,\"second\":%u,\"regional\":%u,"
                           "\"cs\":%s,\"display\":%s,\"dsc\":%s,\"band\":%s,"
                           "\"msg22\":%s,\"raim\":%s,\"radio\":%u}\r\n",
                           ais->type18.reserved,
                           ais->type18.speed,
                           JSON_BOOL(ais->type18.accuracy),
                           ais->type18.lon,
                           ais->type18.lat,
                           ais->type18.course,
                           ais->type18.heading,
                           ais->type18.second,
                           ais->type18.regional,
                           JSON_BOOL(ais->type18.cs),
                           JSON_BOOL(ais->type18.display),
                           JSON_BOOL(ais->type18.dsc),
                           JSON_BOOL(ais->type18.band),
                           JSON_BOOL(ais->type18.msg22),
                           JSON_BOOL(ais->type18.raim), ais->type18.radio);
        }
        break;
    case 19:
        if (scaled) {
            str_appendf(buf, buflen,
                           ",\"reserved\":%u,\"speed\":%.1f,\"accuracy\":%s,"
                           "\"lon\":%.6f,\"lat\":%.6f,\"course\":%.1f,"
                           "\"heading\":%u,\"second\":%u,\"regional\":%u,"
                           "\"shipname\":\"%s\","
                           "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"to_bow\":%u,\"to_stern\":%u,\"to_port\":%u,"
                           "\"to_starboard\":%u,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"raim\":%s,\"dte\":%u,\"assigned\":%s}\r\n",
                           ais->type19.reserved,
                           ais->type19.speed / 10.0,
                           JSON_BOOL(ais->type19.accuracy),
                           ais->type19.lon / AIS_LATLON_DIV,
                           ais->type19.lat / AIS_LATLON_DIV,
                           ais->type19.course / 10.0,
                           ais->type19.heading,
                           ais->type19.second,
                           ais->type19.regional,
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type19.shipname),
                           ais->type19.shiptype,
                           SHIPTYPE_DISPLAY(ais->type19.shiptype),
                           ais->type19.to_bow,
                           ais->type19.to_stern,
                           ais->type19.to_port,
                           ais->type19.to_starboard,
                           ais->type19.epfd,
                           EPFD_DISPLAY(ais->type19.epfd),
                           JSON_BOOL(ais->type19.raim),
                           ais->type19.dte,
                           JSON_BOOL(ais->type19.assigned));
        } else {
            str_appendf(buf, buflen,
                           ",\"reserved\":%u,\"speed\":%u,\"accuracy\":%s,"
                           "\"lon\":%d,\"lat\":%d,\"course\":%u,"
                           "\"heading\":%u,\"second\":%u,\"regional\":%u,"
                           "\"shipname\":\"%s\","
                           "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"to_bow\":%u,\"to_stern\":%u,\"to_port\":%u,"
                           "\"to_starboard\":%u,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"raim\":%s,\"dte\":%u,\"assigned\":%s}\r\n",
                           ais->type19.reserved,
                           ais->type19.speed,
                           JSON_BOOL(ais->type19.accuracy),
                           ais->type19.lon,
                           ais->type19.lat,
                           ais->type19.course,
                           ais->type19.heading,
                           ais->type19.second,
                           ais->type19.regional,
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type19.shipname),
                           ais->type19.shiptype,
                           SHIPTYPE_DISPLAY(ais->type19.shiptype),
                           ais->type19.to_bow,
                           ais->type19.to_stern,
                           ais->type19.to_port,
                           ais->type19.to_starboard,
                           ais->type19.epfd,
                           EPFD_DISPLAY(ais->type19.epfd),
                           JSON_BOOL(ais->type19.raim),
                           ais->type19.dte,
                           JSON_BOOL(ais->type19.assigned));
        }
        break;
    case 20:                    /* Data Link Management Message */
        str_appendf(buf, buflen,
                       ",\"offset1\":%u,\"number1\":%u,"
                       "\"timeout1\":%u,\"increment1\":%u,"
                       "\"offset2\":%u,\"number2\":%u,"
                       "\"timeout2\":%u,\"increment2\":%u,"
                       "\"offset3\":%u,\"number3\":%u,"
                       "\"timeout3\":%u,\"increment3\":%u,"
                       "\"offset4\":%u,\"number4\":%u,"
                       "\"timeout4\":%u,\"increment4\":%u}\r\n",
                       ais->type20.offset1,
                       ais->type20.number1,
                       ais->type20.timeout1,
                       ais->type20.increment1,
                       ais->type20.offset2,
                       ais->type20.number2,
                       ais->type20.timeout2,
                       ais->type20.increment2,
                       ais->type20.offset3,
                       ais->type20.number3,
                       ais->type20.timeout3,
                       ais->type20.increment3,
                       ais->type20.offset4,
                       ais->type20.number4,
                       ais->type20.timeout4, ais->type20.increment4);
        break;
    case 21:                    /* Aid to Navigation */
        if (scaled) {
            str_appendf(buf, buflen,
                           ",\"aid_type\":%u,\"aid_type_text\":\"%s\","
                           "\"name\":\"%s\",\"lon\":%.6f,"
                           "\"lat\":%.6f,\"accuracy\":%s,\"to_bow\":%u,"
                           "\"to_stern\":%u,\"to_port\":%u,\"to_starboard\":%u,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"second\":%u,\"regional\":%u,"
                           "\"off_position\":%s,\"raim\":%s,"
                           "\"virtual_aid\":%s}\r\n",
                           ais->type21.aid_type,
                           NAVAIDTYPE_DISPLAY(ais->type21.aid_type),
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type21.name),
                           ais->type21.lon / AIS_LATLON_DIV,
                           ais->type21.lat / AIS_LATLON_DIV,
                           JSON_BOOL(ais->type21.accuracy),
                           ais->type21.to_bow, ais->type21.to_stern,
                           ais->type21.to_port, ais->type21.to_starboard,
                           ais->type21.epfd,
                           EPFD_DISPLAY(ais->type21.epfd),
                           ais->type21.second,
                           ais->type21.regional,
                           JSON_BOOL(ais->type21.off_position),
                           JSON_BOOL(ais->type21.raim),
                           JSON_BOOL(ais->type21.virtual_aid));
        } else {
            str_appendf(buf, buflen,
                           ",\"aid_type\":%u,\"aid_type_text\":\"%s\","
                           "\"name\":\"%s\",\"accuracy\":%s,"
                           "\"lon\":%d,\"lat\":%d,\"to_bow\":%u,"
                           "\"to_stern\":%u,\"to_port\":%u,\"to_starboard\":%u,"
                           "\"epfd\":%u,\"epfd_text\":\"%s\","
                           "\"second\":%u,\"regional\":%u,"
                           "\"off_position\":%s,\"raim\":%s,"
                           "\"virtual_aid\":%s}\r\n",
                           ais->type21.aid_type,
                           NAVAIDTYPE_DISPLAY(ais->type21.aid_type),
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type21.name),
                           JSON_BOOL(ais->type21.accuracy),
                           ais->type21.lon,
                           ais->type21.lat,
                           ais->type21.to_bow,
                           ais->type21.to_stern,
                           ais->type21.to_port,
                           ais->type21.to_starboard,
                           ais->type21.epfd,
                           EPFD_DISPLAY(ais->type21.epfd),
                           ais->type21.second,
                           ais->type21.regional,
                           JSON_BOOL(ais->type21.off_position),
                           JSON_BOOL(ais->type21.raim),
                           JSON_BOOL(ais->type21.virtual_aid));
        }
        break;
    case 22:                    /* Channel Management */
        str_appendf(buf, buflen,
                       ",\"channel_a\":%u,\"channel_b\":%u,"
                       "\"txrx\":%u,\"power\":%s",
                       ais->type22.channel_a,
                       ais->type22.channel_b,
                       ais->type22.txrx, JSON_BOOL(ais->type22.power));
        if (ais->type22.addressed) {
            str_appendf(buf, buflen,
                           ",\"dest1\":%u,\"dest2\":%u",
                           ais->type22.mmsi.dest1, ais->type22.mmsi.dest2);
        } else if (scaled) {
            str_appendf(buf, buflen,
                           ",\"ne_lon\":\"%f\",\"ne_lat\":\"%f\","
                           "\"sw_lon\":\"%f\",\"sw_lat\":\"%f\"",
                           ais->type22.area.ne_lon / AIS_CHANNEL_LATLON_DIV,
                           ais->type22.area.ne_lat / AIS_CHANNEL_LATLON_DIV,
                           ais->type22.area.sw_lon / AIS_CHANNEL_LATLON_DIV,
                           ais->type22.area.sw_lat /
                           AIS_CHANNEL_LATLON_DIV);
        } else {
            str_appendf(buf, buflen,
                           ",\"ne_lon\":%d,\"ne_lat\":%d,"
                           "\"sw_lon\":%d,\"sw_lat\":%d",
                           ais->type22.area.ne_lon,
                           ais->type22.area.ne_lat,
                           ais->type22.area.sw_lon, ais->type22.area.sw_lat);
        }
        str_appendf(buf, buflen,
                       ",\"addressed\":%s,\"band_a\":%s,"
                       "\"band_b\":%s,\"zonesize\":%u}\r\n",
                       JSON_BOOL(ais->type22.addressed),
                       JSON_BOOL(ais->type22.band_a),
                       JSON_BOOL(ais->type22.band_b), ais->type22.zonesize);
        break;
    case 23:                    /* Group Assignment Command */
        if (scaled) {
            str_appendf(buf, buflen,
                           ",\"ne_lon\":\"%f\",\"ne_lat\":\"%f\","
                           "\"sw_lon\":\"%f\",\"sw_lat\":\"%f\","
                           "\"stationtype\":%u,\"stationtype_text\":\"%s\","
                           "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"interval\":%u,\"quiet\":%u}\r\n",
                           ais->type23.ne_lon / AIS_CHANNEL_LATLON_DIV,
                           ais->type23.ne_lat / AIS_CHANNEL_LATLON_DIV,
                           ais->type23.sw_lon / AIS_CHANNEL_LATLON_DIV,
                           ais->type23.sw_lat / AIS_CHANNEL_LATLON_DIV,
                           ais->type23.stationtype,
                           STATIONTYPE_DISPLAY(ais->type23.stationtype),
                           ais->type23.shiptype,
                           SHIPTYPE_DISPLAY(ais->type23.shiptype),
                           ais->type23.interval, ais->type23.quiet);
        } else {
            str_appendf(buf, buflen,
                           ",\"ne_lon\":%d,\"ne_lat\":%d,"
                           "\"sw_lon\":%d,\"sw_lat\":%d,"
                           "\"stationtype\":%u,\"stationtype_text\":\"%s\","
                           "\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"interval\":%u,\"quiet\":%u}\r\n",
                           ais->type23.ne_lon,
                           ais->type23.ne_lat,
                           ais->type23.sw_lon,
                           ais->type23.sw_lat,
                           ais->type23.stationtype,
                           STATIONTYPE_DISPLAY(ais->type23.stationtype),
                           ais->type23.shiptype,
                           SHIPTYPE_DISPLAY(ais->type23.shiptype),
                           ais->type23.interval, ais->type23.quiet);
        }
        break;
    case 24:                    /* Class B CS Static Data Report */
        if (ais->type24.part != both) {
            static char *partnames[] = {"AB", "A", "B"};
            str_appendf(buf, buflen,
                           ",\"part\":\"%s\"",
                           json_stringify(buf1, sizeof(buf1),
                                          partnames[ais->type24.part]));
        }
        if (ais->type24.part != part_b)
            str_appendf(buf, buflen,
                           ",\"shipname\":\"%s\"",
                           json_stringify(buf1, sizeof(buf1),
                                      ais->type24.shipname));
        if (ais->type24.part != part_a) {
            str_appendf(buf, buflen,
                           ",\"shiptype\":%u,\"shiptype_text\":\"%s\","
                           "\"vendorid\":\"%s\",\"model\":%u,\"serial\":%u,"
                           "\"callsign\":\"%s\"",
                           ais->type24.shiptype,
                           SHIPTYPE_DISPLAY(ais->type24.shiptype),
                           json_stringify(buf1, sizeof(buf1),
                                          ais->type24.vendorid),
                           ais->type24.model,
                           ais->type24.serial,
                           json_stringify(buf2, sizeof(buf2),
                                          ais->type24.callsign));
            if (AIS_AUXILIARY_MMSI(ais->mmsi)) {
                str_appendf(buf, buflen,
                               ",\"mothership_mmsi\":%u",
                               ais->type24.mothership_mmsi);
            } else {
                str_appendf(buf, buflen,
                               ",\"to_bow\":%u,\"to_stern\":%u,"
                               "\"to_port\":%u,\"to_starboard\":%u",
                               ais->type24.dim.to_bow,
                               ais->type24.dim.to_stern,
                               ais->type24.dim.to_port,
                               ais->type24.dim.to_starboard);
            }
        }
        (void)strlcat(buf, "}\r\n", buflen);
        break;
    case 25:                    /* Binary Message, Single Slot */
        str_appendf(buf, buflen,
                       ",\"addressed\":%s,\"structured\":%s,\"dest_mmsi\":%u,"
                       "\"app_id\":%u,\"data\":\"%zd:%s\"}\r\n",
                       JSON_BOOL(ais->type25.addressed),
                       JSON_BOOL(ais->type25.structured),
                       ais->type25.dest_mmsi,
                       ais->type25.app_id,
                       ais->type25.bitcount,
                       gpsd_hexdump(scratchbuf, sizeof(scratchbuf),
                                    (char *)ais->type25.bitdata,
                                    BITS_TO_BYTES(ais->type25.bitcount)));
        break;
    case 26:                    /* Binary Message, Multiple Slot */
        str_appendf(buf, buflen,
                       ",\"addressed\":%s,\"structured\":%s,\"dest_mmsi\":%u,"
                       "\"app_id\":%u,\"data\":\"%zd:%s\",\"radio\":%u}\r\n",
                       JSON_BOOL(ais->type26.addressed),
                       JSON_BOOL(ais->type26.structured),
                       ais->type26.dest_mmsi,
                       ais->type26.app_id,
                       ais->type26.bitcount,
                       gpsd_hexdump(scratchbuf, sizeof(scratchbuf),
                                    (char *)ais->type26.bitdata,
                                    BITS_TO_BYTES(ais->type26.bitcount)),
                       ais->type26.radio);
        break;
    case 27:                    /* Long Range AIS Broadcast message */
        if (scaled)
            str_appendf(buf, buflen,
                           ",\"status\":\"%s\","
                           "\"accuracy\":%s,\"lon\":%.1f,\"lat\":%.1f,"
                           "\"speed\":%u,\"course\":%u,\"raim\":%s,"
                           "\"gnss\":%s}\r\n",
                           nav_legends[ais->type27.status],
                           JSON_BOOL(ais->type27.accuracy),
                           ais->type27.lon / AIS_LONGRANGE_LATLON_DIV,
                           ais->type27.lat / AIS_LONGRANGE_LATLON_DIV,
                           ais->type27.speed,
                           ais->type27.course,
                           JSON_BOOL(ais->type27.raim),
                           JSON_BOOL(ais->type27.gnss));
        else
            str_appendf(buf, buflen,
                           ",\"status\":%u,"
                           "\"accuracy\":%s,\"lon\":%d,\"lat\":%d,"
                           "\"speed\":%u,\"course\":%u,\"raim\":%s,"
                           "\"gnss\":%s}\r\n",
                           ais->type27.status,
                           JSON_BOOL(ais->type27.accuracy),
                           ais->type27.lon,
                           ais->type27.lat,
                           ais->type27.speed,
                           ais->type27.course,
                           JSON_BOOL(ais->type27.raim),
                           JSON_BOOL(ais->type27.gnss));
        break;
    default:
        (void)strlcat(buf, "}\r\n", buflen);
        break;
    }
}
#endif /* defined(AIVDM_ENABLE) */

#ifdef COMPASS_ENABLE
void json_att_dump(const struct gps_data_t *gpsdata,
                   char *reply, size_t replylen)
/* dump the contents of an attitude_t structure as JSON */
{
    assert(replylen > sizeof(char *));
    (void)strlcpy(reply, "{\"class\":\"ATT\",", replylen);
    str_appendf(reply, replylen, "\"device\":\"%s\",", gpsdata->dev.path);
    if (isfinite(gpsdata->attitude.heading) != 0) {
        /* Trimble outputs %.3f, so we do too. */
        str_appendf(reply, replylen,
                       "\"heading\":%.3f,", gpsdata->attitude.heading);
        if (gpsdata->attitude.mag_st != '\0')
            str_appendf(reply, replylen,
                           "\"mag_st\":\"%c\",", gpsdata->attitude.mag_st);

    }
    if (isfinite(gpsdata->attitude.pitch) != 0) {
        str_appendf(reply, replylen,
                       "\"pitch\":%.2f,", gpsdata->attitude.pitch);
        if (gpsdata->attitude.pitch_st != '\0')
            str_appendf(reply, replylen,
                           "\"pitch_st\":\"%c\",",
                           gpsdata->attitude.pitch_st);

    }
    if (isfinite(gpsdata->attitude.yaw) != 0) {
        str_appendf(reply, replylen,
                       "\"yaw\":%.2f,", gpsdata->attitude.yaw);
        if (gpsdata->attitude.yaw_st != '\0')
            str_appendf(reply, replylen,
                           "\"yaw_st\":\"%c\",", gpsdata->attitude.yaw_st);

    }
    if (isfinite(gpsdata->attitude.roll) != 0) {
        str_appendf(reply, replylen,
                       "\"roll\":%.2f,", gpsdata->attitude.roll);
        if (gpsdata->attitude.roll_st != '\0')
            str_appendf(reply, replylen,
                           "\"roll_st\":\"%c\",", gpsdata->attitude.roll_st);

    }

    if (isfinite(gpsdata->attitude.dip) != 0)
        str_appendf(reply, replylen,
                       "\"dip\":%.3f,", gpsdata->attitude.dip);

    if (isfinite(gpsdata->attitude.mag_len) != 0)
        str_appendf(reply, replylen,
                       "\"mag_len\":%.3f,", gpsdata->attitude.mag_len);
    if (isfinite(gpsdata->attitude.mag_x) != 0)
        str_appendf(reply, replylen,
                       "\"mag_x\":%.3f,", gpsdata->attitude.mag_x);
    if (isfinite(gpsdata->attitude.mag_y) != 0)
        str_appendf(reply, replylen,
                       "\"mag_y\":%.3f,", gpsdata->attitude.mag_y);
    if (isfinite(gpsdata->attitude.mag_z) != 0)
        str_appendf(reply, replylen,
                       "\"mag_z\":%.3f,", gpsdata->attitude.mag_z);

    if (isfinite(gpsdata->attitude.acc_len) != 0)
        str_appendf(reply, replylen,
                       "\"acc_len\":%.3f,", gpsdata->attitude.acc_len);
    if (isfinite(gpsdata->attitude.acc_x) != 0)
        str_appendf(reply, replylen,
                       "\"acc_x\":%.3f,", gpsdata->attitude.acc_x);
    if (isfinite(gpsdata->attitude.acc_y) != 0)
        str_appendf(reply, replylen,
                       "\"acc_y\":%.3f,", gpsdata->attitude.acc_y);
    if (isfinite(gpsdata->attitude.acc_z) != 0)
        str_appendf(reply, replylen,
                       "\"acc_z\":%.3f,", gpsdata->attitude.acc_z);

    if (isfinite(gpsdata->attitude.gyro_x) != 0)
        str_appendf(reply, replylen,
                       "\"gyro_x\":%.3f,", gpsdata->attitude.gyro_x);
    if (isfinite(gpsdata->attitude.gyro_y) != 0)
        str_appendf(reply, replylen,
                       "\"gyro_y\":%.3f,", gpsdata->attitude.gyro_y);

    if (isfinite(gpsdata->attitude.temp) != 0)
        str_appendf(reply, replylen,
                       "\"temp\":%.3f,", gpsdata->attitude.temp);
    if (isfinite(gpsdata->attitude.depth) != 0)
        str_appendf(reply, replylen,
                       "\"depth\":%.3f,", gpsdata->attitude.depth);

    str_rstrip_char(reply, ',');
    (void)strlcat(reply, "}\r\n", replylen);
}
#endif /* COMPASS_ENABLE */

#ifdef OSCILLATOR_ENABLE
void json_oscillator_dump(const struct gps_data_t *datap,
                          char *reply, size_t replylen)
/* dump the contents of an oscillator_t structure as JSON */
{
    (void)snprintf(reply, replylen,
                   "{\"class\":\"OSC\",\"device\":\"%s\",\"running\":%s,"
                   "\"reference\":%s,\"disciplined\":%s,\"delta\":%d}\r\n",
                   datap->dev.path,
                   JSON_BOOL(datap->osc.running),
                   JSON_BOOL(datap->osc.reference),
                   JSON_BOOL(datap->osc.disciplined),
                   datap->osc.delta);
}
#endif /* OSCILLATOR_ENABLE */

void json_data_report(const gps_mask_t changed,
                 const struct gps_device_t *session,
                 const struct gps_policy_t *policy,
                 char *buf, size_t buflen)
/* report a session state in JSON */
{
    const struct gps_data_t *datap = &session->gpsdata;
    buf[0] = '\0';

    if ((changed & REPORT_IS) != 0) {
        json_tpv_dump(changed, session, policy,
                      buf+strlen(buf), buflen-strlen(buf));
    }

    if ((changed & GST_SET) != 0) {
        json_noise_dump(datap, buf+strlen(buf), buflen-strlen(buf));
    }

    if ((changed & SATELLITE_SET) != 0) {
        json_sky_dump(datap, buf+strlen(buf), buflen-strlen(buf));
    }

    if ((changed & SUBFRAME_SET) != 0) {
        json_subframe_dump(datap, policy->scaled, buf+strlen(buf), buflen-strlen(buf));
    }

    if ((changed & RAW_IS) != 0) {
        json_raw_dump(datap, buf+strlen(buf), buflen-strlen(buf));
    }

#ifdef COMPASS_ENABLE
    if ((changed & ATTITUDE_SET) != 0) {
        json_att_dump(datap, buf+strlen(buf), buflen-strlen(buf));
    }
#endif /* COMPASS_ENABLE */

#ifdef RTCM104V2_ENABLE
    if ((changed & RTCM2_SET) != 0) {
        json_rtcm2_dump(&datap->rtcm2, datap->dev.path,
                        buf+strlen(buf), buflen-strlen(buf));
    }
#endif /* RTCM104V2_ENABLE */

#ifdef RTCM104V3_ENABLE
    if ((changed & RTCM3_SET) != 0) {
        json_rtcm3_dump(&datap->rtcm3, datap->dev.path,
                        buf+strlen(buf), buflen-strlen(buf));
    }
#endif /* RTCM104V3_ENABLE */

#ifdef AIVDM_ENABLE
    if ((changed & AIS_SET) != 0) {
        json_aivdm_dump(&datap->ais, datap->dev.path,
                        policy->scaled,
                        buf+strlen(buf), buflen-strlen(buf));
    }
#endif /* AIVDM_ENABLE */

#ifdef OSCILLATOR_ENABLE
    if ((changed & OSCILLATOR_SET) != 0) {
        json_oscillator_dump(datap, buf+strlen(buf), buflen-strlen(buf));
    }
#endif /* OSCILLATOR_ENABLE */
    if ((changed & LOG_SET) != 0) {
        json_log_dump(session, buf+strlen(buf), buflen-strlen(buf));
    }
}

#undef JSON_BOOL
#endif /* SOCKET_EXPORT_ENABLE */

/* gpsd_json.c ends here */

// vim: set expandtab shiftwidth=4
